2013 Sustainia100

2013 Sustainia100

Sustainia100 is an annual guide to 100 innovative solutions from around the world that presents readily available projects, initiatives and technologies at the forefront of sustainable transformation. The final 100 solutions are deployed in two thirds of the world’s countries -including Kenya, India, Mexico and South Africa, making the Sustainia100 guide reflect innovation from the traditional western hubs as well as parts of the world that are normally not well covered. Identifying 100 innovative, sustainable solutions in 10 key sectors, spanning from energy, transportation to fashion, food and education. Sustainia100 gives investors, regional developers, business leaders, politicians, and consumers in-depth insights to the most promising projects and technologies within their field.

2013
â&#x2020;&#x2019; A Guide to 100 sustainable solutions
SUSTAINIA
SECTORS
10
SOLUTIONS
100 128
COUNTRIES OF DEPLOYMENT
→ A Guide to 100 sustainable solutions
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Who’s behind?
Management Erik Rasmussen, Founder of Sustainia Laura Storm, Executive Director lss@mm.dk Christopher Sveen, Director of Business Development csv@mm.dk Editors Christian Eika, Manager of Research & Development Esben Alslund-Lanthén, Analyst ela@mm.dk Lead Writers Bjørn Hvidtfeldt Larsen, Research Analyst Emil Damgaard Grann, Research Analyst Justin Gerdes, Freelance Analyst Contributing Writers Solvej Karlshøj Christiansen, Project Manager Marie Louise Gørvild, Communications Manager Sector Research Bjørn Hvidtfeldt Larsen, Research Analyst Christian Eika, Manager of Research & Development Emil Damgaard Grann, Research Analyst Esben Alslund-Lanthén, Analyst Morten Jastrup, Senior Analyst, Building Sector mja@mm.dk Sandra Neale, Senior Analyst, Health Sector sne@mm.dk Solvej Karlshøj Christiansen, Project Manager, Fashion Sector skc@mm.dk Design Lisa Haglund, Graphic Design Liv Caroline Hotvedt Laursen, Illustration Sustainia photos Søren Malmose, 2012 Sustainia100 Advisory Board See full list of Advisory Board members in the Methodology chapter page 160 The Sustainia Secretariat c/o Monday Morning Valkendorfsgade 13, P.O. Box 1127 DK-1009 Copenhagen K Phone: +45 33 93 93 23 www.sustainia.me ISBN 978-87-93038-02-8
cef@mm.dk
A special thank goes out to our community who have been a great source of inspiration and has helped us identify great solutions around the world.
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1P ri
n t e d m atter
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These certiﬁcations represent the prevention of 3.97 tons of C02 emissions.
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SUSTAINIA
BUILDING THE WORLD OF TOMORROW
SUSTAINIA100 3
Content
06 Foreword 08 Introduction 10 A World of Solutions 12 Sustainia Award 14 2012 Sustainia Award Winners 16 How to Read the Solutions 160 Methodology 162 The 4 Key Pillars of Sustainia 166 Index
18 Building Sector
20 22 23 24 25 26 28 29 30 31 Algae Clean Energy and Wastewater Treatment A Learning Thermostat Bringing Sunlight into Every Room Solar Air-Conditioning With Energy Storage Generating Energy from Water in Pipelines Bottling the Power of the Sun Wood-Hybrid Building System up to 30 Stories Optimal Light, Natural Air Wind Energy-Generating Skyscraper Rainwater-Harvesting Schools
46 Fashion Sector
48 50 51 52 53 54 56 57 58 59 Clothes Swapping Parties Design for Disassembly Vintage Clothing Library Sharing Design Globally for Upcycling Locally Reversible, Versatile and Sustainable Fashion Sustainable Clothing made Proﬁtable Textile Dyeing without Water or Waste Reinventing the Fashion Calendar Upcycling Jewellery New Fashion from Fabric Discards
32 Food Sector
34 36 37 38 39 40 41 42 44 45 Package-Free Grocery Store Seawater Desert Greenhouses Keeping Food Fresh from Farm to Fork Lighting System “Listens” to Plants Intelligent Thermostats for Beverage Cooling Cheaper Meals with Heat-Retention Cookers Making Chutney out of Waste Food Replacing Animal Protein in Diets Red Worms Transform Waste into Fertilizer Redistributing Cosmetic Food Waste
60 Transportation Sector
62 64 65 66 67 68 69 70 71 72 Solar-Powered EV Charging Stations Kite-Powered Ships Wireless EV Charging Peer-to-Peer Carsharing Hydrogen-Powered Fuel-Cell Car Urban Bike-Sharing Electric City Bus with 250-km Range Battery-Driven Car Ferry Empowering Auto-Rickshaw Drivers Zero Emissions Transport Refrigeration System
SUSTAINIA100 4
Content
74 IT Sector
76 78 79 80 81 82 83 84 86 87 Connecting Kenya’s Unconnected Software for Reducing Water Loss Mobile-Based Farming Information Using Big Data for Energy Savings Online B2B Sharing Marketplace Environmental Scoring of Companies Solar-Powered IT-Centers Green Outdoor Site for Wireless Networking Industrial Symbiosis Web Platform Solar-Powered PCs for Education
116 Health Sector
118 121 Solar Water Puriﬁcation and Distillation Self-Cleaning, Solar-Powered Toilet 120 Mobile Management of Life-Saving Medicine 122 Cancer Prevention and Telemedicine Treatment 124 Slashing Diesel Engine Particle Emissions 125 Empowering Healthier Food Choices 126 Audio-Instructed Infection Prevention 127 High-E ciency Cook Stove 128 Innovating Eye Surgery 129 Online Hospital Treatment
88 Education Sector
90 92 93 94 95 96 97 98 101 Community Light Centers Kick-Starting Markets for A ordable Housing Fixing the World One Device at a Time Environmental Experiences for Children Tying Energy Savings to Learning Opportunities Cash for Recycling Linking Sustainability to Commerce Demonstrating Sustainable Buildings Power-Saving Electricity Monitor
130 Cities Sector
132 Climate Resilient Neighborhood 134 Dynamic Parking Pricing 135 Peer-to-Peer Borrowing and Lending 136 Intelligent Streetlights 137 Real-Time Ridesharing App 138 City Design with Daylight 139 Low-Carbon Growth in an Emerging City 140 Inner-City Bus Rapid Transit 141 River-Assisted District Cooling 142 Retroﬁtting an Inner-City District
100 Crowdsourcing the Future City
102 Energy Sector
104 Solar Generation of Heat, Steam, and Electricity 106 Intelligent Reduction of Peak Power Consumption 107 Thermal Storage for Smart and Green Heating 108 Generating Light from the Force of Gravity 110 Capturing Carbon for Reuse as Fuel 111 112 113 114 115 Using the Ocean to Power Tropical Islands EVs as an Electric Power Supply Making Every Light Intelligent “Energy Forests” in Former Coal Mines Waste to Energy without Combustion
144 Resources Sector
146 Chlorine Generator Kills Waterborne Pathogens 148 Integrated Bioenergy Production for Aviation 149 Waste Education and Collection 150 Restoring Desert Land using Livestock 151 Intelligent Waste and Recycling Collection 152 Extending Life of Goods through Trade Rings 153 Repair Broken Items at the Local Café 154 Decentralized Wastewater Treatment 156 Cash for your Mobile Phone 157 Capturing CO2 to Create Beneﬁciary Byproducts
SUSTAINIA100 5
Connie Hedegaard Calling for action at the Sustainia Award Ceremony, October 2012
06 6
Foreword
“The solutions are available and they’re proﬁtable”
Don’t tell it. Show it. This rule applies to the art of writing, but also very much to the transition to a more sustainable society. And the solutions collected here do just that. They show it. They show that there are loads of good ideas and initiatives out there. They show that this transition is doable. And they show the contours of a society that is both healthier and wealthier than the one we have today. The solutions are available and they are proﬁtable. Our challenge is to bring them to scale. Political power can help this happen by creating a framework with targets, standards, and pricing. But the power of example is just as important, perhaps even more so, to most people. Seeing that sustainable solutions actually work. That they are proﬁtable. Beautiful. Desirable. That is in the end what will make people change and choose sustainable solutions.
Connie Hedegaard European Commissioner for Climate Action and member of the Sustainia Award Committee
07 7
Introduction
Solutions Transforming our Society
Sustainia100 Criteria Readily available Positive environmental impact Financially viable Improve quality of life Scalable
Sustainia100 is an annual guide to 100 innovative solutions from around the world that presents tangible projects, initiatives, and technologies at the forefront of sustainable transformation.
All solutions are readily available and introduce state-of-the-art practices with a positive impact on communities and industries worldwide. By identifying 100 outstanding sustainable solutions in 10 key sectors, Sustainia100 gives investors, regional developers, business leaders, politicians, and consumers in-depth insights to some of the most promising projects and technologies. We see it as a best practices toolbox for those looking for successful sustainable developments in the workplace, production facilities, municipalities, homes, schools, cities – wherever! Building on the 2012 edition of the Sustainia100 and the great interest it inspired, Sustainia has expanded its research e orts, gone through thousands of projects, explored new developments at research facilities and innovation hubs. We have carefully vetted over 500 solutions in order to present you with this year’s Sustainia100. The result is a unique overview of market proven solutions that highlight the most cutting-edge developments and investment potential around the globe.
WHAT MAKES A SUSTAINIA100 SOLUTION? The Sustainia100 shows progress within the environmental, social, and economic spheres of our societies. Sustainia has adopted a systematic approach to ﬁnding solutions in concert with a global sustainability community. Our online platform enables innovators from around the globe to submit a solution. These submissions are supplemented by extensive research carried out to ensure geographic and sector diversity. Finally, the solutions are carefully vetted and selected using the Sustainia100 Criteria, in consultation with our Advisory Board of external, independent sector experts.
(See more in Methodology-chapter)
The solutions proﬁled in the Sustainia100 are based on our triple-bottom line approach towards sustainability: environmental, social, and economic. They also have the potential to scale up across markets and societies.
The Sustainia100 is launched each year in June. But our e orts to identify state-of-the art solutions are ongoing. Sustainia has developed a comprehensive database of sustainable solutions, projects, and technologies from every corner of the globe across a wide range of sectors. Reviewing this data, we can conﬁdently say that impressive progress is being made around the world, and we look forward to sharing these developments with you. You are about to see 100 solutions that prove to us that sustainable transformation of our key sectors is possible. Not in 10 years time, but today!
08 8
Introduction
100 Solutions Reveal New Trends & Developments
Using Big Data for Energy Savings
Mobile Management of Life-Saving Medicine
Over the past year, the Sustainia research team considered thousands of solutions to select the ﬁnal Sustainia100. Based on the extensive amount of data and research, trends and developments have emerged. Before you dive deeper into the solutions, projects, and technologies, we want to pan out for an introduction to the trends and insights reﬂected in the Sustainia100.
TREND: Sharing resources and reducing costs Sharing resources is emerging everywhere from heavy machinery and cars to tools and appliances helping save resources, capital investments, and overall cost structure related to them. This also adds a social element to sustainable living by facilitating interactions between neighbors, colleagues, and residents. TREND: Mobile technology breaking barriers of poor infrastructure A truly inspiring development is also under way in the health sector, where we see a strong trend of tech solutions taking advantage of the high mobile penetration in sub-Saharan countries in order to deliver medical care to citizens and manage medical supplies. TREND: Big Data to big analytics Big Data is making a big bet on sustainable innovation. In Sustainia100, you will ﬁnd solutions that can collect large data sets without infrastructure plug-ins or sensors, as well as solutions that use this data to ﬁnd the leaks in your water pipes. Exciting as these trends are, we’re reminded of the most important takeaway: The Sustainia100 solutions are making lives, economies, and environments better around the world
TREND : New manufacturing technologies and sustainable production We have been excited to see innovative solutions surface in sectors rather new to the sustainability scene. One of these sectors is the fashion industry. There is a long way to go, but some of the most groundbreaking solutions are appearing in this industry, such as sophisticated dyeing methods and young designers ﬁnding new approaches to reduce waste. TREND: Technologies that interact with consumer behavior More solutions acknowledge the importance of consumer behavior by giving users access to data and information that drive them to change their behavior or make their life easier. This not only encourages users to reﬂect on their consumption, but also to take control and make decisions that ﬁt their routines and lifestyle.
Peer-to-Peer Borrowing and Lending
New Fashion from Fabric Discards
Commercializing Demand Response in the Grid
09 9
A World of Solutions
Sustainia100 brings forth cases, trends, and insights from all over the world.
26 solutions provide health beneďŹ ts
25 solutions are deployed in Africa, spanning 26 countries
27 solutions are ďŹ nding new ways to use IT for sustainability
About half of the solutions impact the energy sector
19 solutions were developed in Asia, spanning 10 countries
In North America, 7 solutions are cleaning up the fashion industry
Solutions deployed in emerging economies 19 in India 13 in Mexico 13 in South Africa 10 in Kenya
28 solutions have an educational purpose
In South America, 17 solutions are impacting the resource sector
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Solutions deployed in 128 countries
Circle colors correspond to our 10 sectors
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Sustainia Award
The Sustainia Award is an annual international award that honors outstanding performance within sustainability.
Sustainia invites thought leaders and citizens with a passion for sustainability to celebrate the winners during a festive evening in Copenhagen.
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Laura Storm, Sustainia’s Executive Director, announcing the ﬁnalists at the 2012 Sustainia Award Ceremony.
The Award Committee
Arnold Schwarzenegger
Honorary Chairman of Sustainia Award Committee and Former Governor of California
Governor Arnold Schwarzenegger leads a high-level committee of sustainability leaders that selects the award winner and join Sustainia’s celebration of the innovative entrepreneurs who are guiding the world toward a greener and more prosperous future for us all. All 100 solutions in the Sustainia100 are nominees for the Sustainia Award. The Sustainia Award is given to a solution, technology, or initiative with a signiﬁcant potential to help build a more sustainable future. The award winner will gain global awareness around its groundbreaking e orts, and Sustainia will, along with its partners, dedicate time and resources to help the winner scale for greater impact. For the Sustainia Award celebration, Sustainia gathers more than 1,400 people in its community, emphasizing that sustainability can indeed sell tickets when it is presented in an appealing way. We also invite our friends and followers to get engaged, vote, and celebrate their winner. This award, the Sustainia Community Award, is the voice of global consumers and a recognition of the winner’s ability to create enthusiasm and inspire a broader audience to embrace sustainability. Last year, community members from 115 countries voted for their favorite solution. The Sustainia Award and Sustainia Community Award winners are announced in autumn 2013 at the Sustainia Award Ceremony, held at the Royal Danish Theater, in Copenhagen.
Connie Hedegaard
European Commissioner for Climate Action
Gro Harlem Brundtland
Former Prime Minister of Norway and Former Director-General, World Health Organization
Dr. Rajendra Pachauri
Nobel Laureate and Chair, Intergovernmental Panel on Climate Change (IPCC)
NU J OI
S!
Sustainia is a vibrant community for those who believe that change is created from the bottom up.
Ten ﬁnalists for the Sustainia Award will also be presented to world business leaders and politicians during the UN Global Compact Leaders Summit in NY on the occasion of the opening of the 68th Session of the UN General Assembly in September 2013.
SUSTAINIA
BUILDING THE WORLD OF TOMORROW
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2012 Sustainia Award Winners
2012 Sustainia Award Winner Azuri Technologies
The combination of solar and mobile phone technologies enables users to avoid una ordable up-front costs and instead pay for their solar electricity as they use it by purchasing scratchcards. In Kenya, a scratch-card costs $1.40 and provides eight hours of fossil fuel-free lighting for two rooms and mobile phone charging for a week. Indigo replaces kerosene as the primary source of energy for lighting, cutting a family’s energy expenses by up to 50%, which also makes the solution ﬁnancially viable to low-income families.
Azuri took home the award for their Indigo pay-as-you-go solar solution for homes located in o -grid areas in the developing world.
Since winning the Sustainia Award, Azuri has grown rapidly and gained widespread attention. The company expanded into countries in East and Southern Africa and initiated deployment of the Indigo solution in West Africa. Having secured a landmark ﬁnance facility from Barclays Corporate Finance to accelerate further deployment, Azuri is ready to transform the lives of an additional 30,000 rural customers in sub-Saharan Africa. Azuri beneﬁtted from the international recognition and celebrity endorsement from Arnold Schwarzenegger that accompanied the Sustainia Award. This has raised the proﬁle of the brand and its position as a sustainable business.
The Azuri solar solution, Indigo, brings great value to o -grid communities through a combination of easily available solar technologies and mobile ﬁnancing.
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2012 Sustainia Award Winners
Developed in UK
Deployed in Kenya, Uganda, Zimbabwe, South Sudan, and Sierra Leone
www.azuri-technologies.com
SINCE WINNING THE SUSTAINIA AWARD, AZURI EXPANDED WITHIN EAST AND SOUTHERN AFRICA AND STARTED DEPLOYMENTS IN WEST AFRICA, INCLUDING A ROLLOUT IN SIERRA LEONE.
2012 Sustainia Community Award Winner Chicago Lakeside Development
Winning the hearts and minds of the Sustainia community, Chicago Lakeside Development was voted winner of the Sustainia Community Award 2012. The solution represents a great opportunity for Chicago to recreate itself for the 21st century by setting new standards for sustainable living.
Chicago Lakeside Development is a transformative model for U.S. city planning and could upend the traditional thinking of how people live and work across the country.
www.chicagolakesidedevelopment.com
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How to Read the Solutions
This guide takes you through 100 solutions. We describe each solution and zoom in on key aspects such as sectors, geography, and beneďŹ ts on the Triple Bottom Line of sustainability: social, economic, and environmental.
This is what to look for when reading:
DESCRIPTION A straightforward explanation of how the solution works. JUSTIFICATION The key arguments as to why this solution is in the guide. IMAGE Provides a visual anchor point for the reader to understand each solution.
Solution developed in
Geography
Sustainia100 is a journey around the world. In the description for each solution, we will show you both where it was developed and the country or countries where the solution is deployed. This reveals the contexts that each solution is beneďŹ tting. You will discover that great solutions are being developed, tested, and used in a wide variety of countries.
Solution deployed in
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Sectors
BUILDINGS FOOD FASHION TRANSPORTATION IT EDUCATION ENERGY HEALTH CITIES RESOURCES
The solutions are divided into sectors. Each sector is equipped with a sector icon making it easy to navigate solutions based on which sectors you are interested in. Many of the solutions in this guide impact more than one sector and are thus equipped with several icons proportionate in size with the impact that the solution has on each sector. Solutions that impact multiple sectors are placed in the sector that it impacts the most. The cross-sector impact of most solutions reﬂects the holistic approach that characterizes sustainable solutions.
The Triple Bottom Line
Apart from the sector icons, the three icons below represent the triple bottom line of sustainability. For each solution, at least two of the three elements are highlighted.
ENVIRONMENTAL Here you will ﬁnd key arguments and statistics on how the solution beneﬁts the environment, i.e. by limiting CO2 emissions, chemical use, etc.
SOCIAL Here you will ﬁnde key arguments that illustrate social sustainability, i.e. how the solution improves well-being and quality of life etc.
ECONOMIC Under this icon, you will ﬁnd key arguments or statistics that illustrate the economic sustainability of the solution, i.e. why it has a positive economic impact.
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Buildings
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Buildings
Key trends
Building sector
Integrating new forms of renewables
Applying low-tech solutions in developing economies
Utilizing natural resources for air-conditioning, lighting, and heating Sustainability throughout a buildingâ&#x20AC;&#x2122;s life-cycle
Onsite water treatment systems
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Buildings
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Buildings
Algae Clean Energy and Wastewater Treatment
Ennesys’ biomimetic microalgae for the triple wastewater remediation, generation, and thermal buildings. solution uses advantage of clean energy insulation of
ENVIRONMENTAL One hundred percent of wastewater from o ce or residential buildings can be recycled, generating 8 kWh of clean electricity, according to Ennesys.
In photo-bioreactors placed on building roofs or façades, microalgae growth in sunlight is enhanced by the supply of wastewater. Pollutants are assimilated and increase biomass production. After harvesting, the biomass can be transformed locally to produce power, heat, or cooling, and the water is cleaned. The functioning demonstrator in France has proven the quality of the cleaned water, suitable for irrigation or sanitation. The positioning of photo-bioreactors on the roof and façades of buildings improves their thermal behavior, providing better insulation and user comfort.
Why a Sustainia100 solution? Combining wastewater remediation and clean energy production, Ennesys’ technology allows city districts to recycle their organic waste and produce energy to cover local consumption. The low cost of the electricity generated and the wastewater treated makes the technology scalable to other settings, particularly where decentralized water remediation is required.
SOCIAL In developing countries, local water treatment leads to an increase of water availability for sanitation, reducing the risk of disease transmission.1
ECONOMIC Harvesting both solar and biological energy leads to low-cost heat and power production, as well as reduced heating and cooling demand in buildings.
Developed in France
Deployed in France, Brazil, Chile, Israel, Morocco
Ennesys’ water cycle recovers biologic energy from wastewater and solar energy to grow microalgae, locally transformed into heat and power, recycling wastewater to irrigation and sanitation quality.
1
WHO, “Domestic Water Quantity, Service Level and Health.”
Solution by Ennesys SAS and OriginOil 21
Buildings
A Learning Thermostat
The Nest Learning Thermostat can reduce heating and cooling costs by learning the habits of its users.
The Nest Learning Thermostat remembers what temperatures you like, creates a custom schedule for your home, and adjusts temperature settings when you’re away. The company says that once the Nest has learned your schedule, it can save up to 20% on heating and cooling bills.
ENVIRONMENTAL Nest addresses 10% of US energy consumption – residential heating and cooling.
SOCIAL By learning its users’ habits and adjusting accordingly, the Nest gets around people’s tendency to forget to program home thermostats.
The Nest can be remotely controlled via a smartphone, tablet, or laptop. Nest’s System Match optimizes controls for a home’s particular heating and cooling system, while the Nest Leaf guides users to energy-e cient temperature settings. The “Energy History and Energy Report,” enables users to see how much energy they’ve used and provides tips on how to lower utility bills.
Why a Sustainia100 solution? Nest alleviates the hassle of having to program a thermostat – just 11% of homeowners program their programmable thermostats because they’re too complicated. Home heating and cooling accounts for about half of the average household’s energy bill. The Nest Learning Thermostat keeps users comfortable while helping them save energy.
ECONOMIC According to Nest, once the thermostat has learned your schedule, it can save up to 20% on heating and cooling bills.
Developed in USA Deployed in USA, Canada
Solution by Nest 22
Buildings
Bringing Sunlight into Every Room
The Parans system captures the rays of the sun and brings it deep into buildings, creating a skylight even four ﬂoors down.
Parans’ solar lighting system brings sunlight into the indoor environments where we work, learn, and live. Natural light confers health beneﬁts that cannot be substituted by artiﬁcial light. The technology uses ﬁber optic cables to transport sunlight far into buildings, which reduces the electricity used for illumination and cooling. The thin and ﬂexible cables make it simple to install in new buildings or retroﬁt into existing buildings.
Why a Sustainia100 solution? Many of today’s buildings are designed so that artiﬁcial light is needed throughout the day. Parans’ solution allows buildings to use sunlight directly for illumination, enhancing the quality of our indoor environments, as we need sunlight for good health.
ENVIRONMENTAL Lighting accounts for almost 20% of global electricity consumption, according to Parans.
SOCIAL Sunlight keeps us awake and alert, syncing our 24-hour rhythm, hormone balance, and boosting the immune system.
ECONOMIC According to the company, workers exposed to natural light are more productive and sick less often.
Developed in Sweden Deployed in 33 countries in Europe and North America
Solution by Parans Solar Lighting 23
Buildings
Solar Air-Conditioning with Energy Storage
ClimateWell’s CoolStore technology powers solar air-conditioning systems with integrated energy storage to provide heating during winter, cooling during summer, and hot water every day.
ClimateWell has developed a triple-state absorption technology that converts and stores solar energy into heating and cooling without need of electricity. The high-density integrated energy storage in a “dry” salt has no moving parts, is fully scalable, and cost-e ective. The ClimateWell CoolStore component (essentially a glass tube) is directly integrated into a solar collector, making installation easy, with no need for external equipment. The technology can be applied in single-family homes and commercial buildings alike, and can even be used for heat-driven airconditioning for heavy-duty vehicles and trucks.
Why a Sustainia100 solution? According to ClimateWell, 25% of the world’s energy consumption is used for heating and cooling of buildings, with the largest part of this energy coming from fossil fuelpowered space heaters and electrically driven chillers. As the world’s ﬁrst solar collector with combined heating, cooling, and energy storage, this solution delivers twice as much energy compared to today’s state-of-the-art solar collectors, increasing energy savings and reducing CO2 emissions.
ENVIRONMENTAL According to ClimateWell, a typical residential user of CoolStore-powered solar air-conditioning reduces the home’s CO2 footprint by 15 tons annually.
SOCIAL As ClimateWell’s solar cooling solutions run without electricity, o grid areas could beneﬁt from cooling and cold storage of foods and medicine.
ECONOMIC A typical U.S. homeowner using ClimateWell-powered solar cooling cuts energy bills by 50%, according to the company.
Developed in Sweden, USA, Germany
Deployed in 16 countries in Europe, North America, South America, Africa, and Asia
The ClimateWell CoolStore component (the “tube”) is integrated in to conventional solar thermal collectors, only powered by the sun, to deliver heating and cooling to buildings.
"AT CLIMATEWELL WE ARE COMMITTED TO DELIVERING ENERGY EFFICIENCY THAT PAYS FOR ITSELF."
PER OLOFSSON, CEO CLIMATEWELL
Solution by ClimateWell 24
Buildings
Generating Energy from Water in Pipelines
Lucid Energy provides a new way for industries to generate renewable energy around the clock from the water in their pipelines.
The LucidPipe is an in-conduit hydropower technology that enables water-intensive industrial, municipal, and agricultural users to produce carbon-free, low-cost electricity from water pipelines and e uent streams. The technology recaptures energy embedded in fast-ﬂowing water inside of large-diameter, gravity-fed pipelines without disrupting pipeline operations. The LucidPipe spherical turbines spin as water passes through them, producing a consistent and non-weather-dependent source of energy. A market study recently completed by Navigant Consulting sizes the opportunity for sales of Lucid Energy’s in-pipe hydropower product at $5-6 billion in the USA alone.
Why a Sustainia100 solution? The U.S. EPA estimates that $633 billion in water infrastructure upgrades are needed to replace aging pipelines and to satisfy new demand over the next 20 years. By incorporating LucidPipe turbines into new and upgraded pipelines, millions of megawatt-hours of carbon-free, low-cost electricity can be generated.
ENVIRONMENTAL According to the U.S. EPA, 6% of the energy consumed in the USA alone is used to purify and deliver water.
SOCIAL Delivering drinking and irrigation water requires energy that is often in short supply, expensive, and dependent on fossil fuels that further deplete resources.
ECONOMIC In the USA, drinking water and wastewater facilities spend nearly $4 billion per year on energy; by incorporating the use of LucidPipe, millions of megawatt-hours of low-cost electricity can be generated.
Developed in USA
Deployed in USA, China, Brazil, Mexico, Chile, Canada, Italy, Spain, and South Africa
“LUCID ENERGY IS IMPROVING THE ECONOMICS OF DELIVERING SAFE, CLEAN WATER WHILE REDUCING DEPENDENCE ON FOSSIL FUELS.”
GREGG SEMLER, PRESIDENT AND CEO, LUCID ENERGY
Solution by Lucid Energy 25
Buildings
Bottling the Power of the Sun
Liter of Light redesigns solar lighting for the developing world using plastic bottles. The simple design creates local jobs and teaches green skills.
A Liter of Light is a plastic bottle ﬁlled with water and a bit of bleach. Inserted through the roof, each solar bottle refracts sunlight with the intensity of a 55-watt light bulb. Using simple tools and basic carpentry skills, volunteers and local entrepreneurs can light up their communities for just $2. The nighttime upgrade with a solar panel retails at $10. Built by grassroots entrepreneurs and women’s groups in the Philippines, the cost of ﬁnished goods are reduced by 40%. Liter of Light has grown from one home in Laguna, Philippines, to 350,000 lights in 10 countries in just 20 months. Three hundred and seventy grassroots solar entrepreneurs are trained in 20 months, with each entrepreneur servicing an average of 11,000 homes per year.
Why a Sustainia100 solution? Over 1 billion people around the world su er from lack of access to energy, including 15 million people in the Philippines. Energy poverty will only be solved by using local materials, easily replicable technologies, and livelihood-generating enterprises. Liter of Light is helping end energy poverty one bottle at a time.
ENVIRONMENTAL Discarded plastic bottles are reused and upcycled to a daylighting system in 10 minutes.
SOCIAL Liter of Light prevents ﬁres and inhalation of toxic fumes from kerosene lamps.
ECONOMIC Each lamp saves households $10 monthly in electricity costs and 200 kilograms of carbon emissions per year.
Developed in Philippines Deployed in Indonesia, Cambodia, Bangladesh, India, South Africa, Kenya, Colombia, Peru, Mexico, Spain
Using a recycled PET plastic bottle ﬁlled with water and chlorine, Liter of Light creates a 55-watt solar bottle bulb powerful enough to light up a home.
Solution by MyShelter Foundation 26
Azuri-technologies Buildings
Through a simple, open source, do-it-yourself daylight technology, customers can use the savings from their electricity bills to purchase a locally built upgrade for lighting at night.
WE WANT TO REFRAME THE WAY PEOPLE THINK ABOUT SOLUTIONS TO CLIMATE CHANGE, NOT AS A PRODUCT OF INDUSTRIALIZED NATIONS, BUT AS A GIFT THAT DEVELOPING COUNTRIES CAN SHARE WITH THE REST OF THE WORLD.
ILLAC DIAZ, EXECUIVE DIRECTOR, MYSHELTER FOUNDATION
THE IDEA BEHIND
Liter of Light is a grassroots solar movement that empowers the most under-resourced communities through the creation of livelihood programs. The organization trains women from low-income and water scarce regions to assemble locally sourced, sustainable, and a ordable solar products. O -the-shelf micro solar products already help millions but are not always the best solution in the long term. They are often imported, patented, hard to repair, and too expensive. This means that ďŹ nancing is required, e.g. through aid or micro credits, which may not always be an option. By training locals to supply green technologies to their own communities, Liter of Light is changing the story about sustainable development. From one where poor countries wait for aid to one where poor people acquire the skills and tools to proactively improve their quality of life.
www.aliteroflight.org
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Buildings
Wood-Hybrid Building System up to 30 Stories
The LifeCycle Tower is a sustainable building system for wood-hybrid, multistory construction up to 100 meters and 30 stories.
The Cree timber building system, LifeCycle Tower, is based on achieving sustainability through material selection. The unenclosed wood structure provides a comfortable living and working environment, saves resources, and promotes health. According to Cree, buildings can reach 30 stories and construction times are cut in half. Building layout, outside façades, surfaces, and interiors are individually planned by architects, while system components such as slabs, columns, inside façade, and building services ensure the building’s quality and functionality. The technology is open source in order to scale the solution globally.
Why a Sustainia100 solution? The concept is a new development and state-of-the-art building system for urban sustainable architecture because of its resource e ciency, with an exposed wood load-bearing structure, system approach and o -site prefabrication of system elements. An eight-story o ce building in Austria shows the technological, ecological, and economic advantages of the hybrid-timber construction system.
ENVIRONMENTAL The LifeCycle Tower improves CO2 balance by up to 90%, resource e ciency up to 50%, and ensures high recyclability and ﬂexible usage.
SOCIAL Production of system elements by regional companies saves time and resources, creates new jobs and business opportunities for SMEs, and reduces dust, dirt, and noise on site.
ECONOMIC Forty percent of global resource consumption is caused by the building industry, according to Cree.
Developed in Austria Deployed in Austria
“WITH THE LIFECYCLE TOWER WE FOLLOW AN OPEN-SOURCE APPROACH WHICH MEANS TO GLOBALIZE KNOWLEDGE AND LOCALIZE VALUE CREATION.”
HUBERT RHOMBERG, CEO CREE
For the construction of the ﬁrst o ce prototype, LCT ONE in Austria, eight stories were erected in just eight days.
Solution by Cree 28
Buildings
Optimal Light, Natural Air
In a Tijuana building, Guillot Arquitectos’ light and air chamber improves the health and productivity of occupants by providing natural light and air.
The air light chamber developed by Guillot Arquitectos captures natural air from the base of a tubular element and redirects it to the building’s various levels, reducing the usage of heating, ventilation, and air conditioning (HVAC) systems. Because the chamber is made of low-E glass and perforated sheet metal, it also allows natural light to permeate. This gives occupants a more natural setting. The chamber increases worker productivity and improves health, and also helps reduce energy costs by an average of 25% .
Why a Sustainia100 solution? By Mexican standards, the light and air chamber makes an unprecedented impact in energy e ciency and o ce comfort while still providing good design that, according to the company, stands out to locals as an inspirational glimpse into a more sustainable future.
ENVIRONMENTAL The light and air chamber minimizes the use of HVAC and electrical systems, reducing the environmental footprint compared to an average building.
SOCIAL The ﬁrst of its kind in the region, the building has made an impact socially by being dubbed by locals as the “ecological building,” which raised awareness of sustainability.
ECONOMIC According to the architects, their solution reduces energy costs by an average of 25%.
Developed in Mexico
Deployed in Mexico
“AS PROBLEM SOLVERS, WE MUST ASPIRE TO DESIGN ELEMENTS THAT WILL MAKE A POSITIVE IMPACT ON OUR HEALTH AND NATURAL RESOURCES.”
RAMON GUILLOT, ARCHITECT, LEED AP, GUILLOT ARQUITECTOS
Solution by Guillot Arquitectos, Basica, and SEICA 29
Buildings
Wind Energy-Generating Skyscraper
The Pearl River Tower, located in the city of Guangzhou, China, is one of the world’s most energy-e cient high-rise structures.
The 309-meter Pearl River Tower’s sculpted body directs wind to a pair of openings at its mechanical ﬂoors, where turbines generate energy for the building. Integrated solar panels, a double skin curtain wall, a chilled ceiling system, under-ﬂoor ventilation, and daylight harvesting are additional technologies that contribute to the building’s energy e ciency.
ENVIRONMENTAL Energy savings of approximately 50% compared to China’s baseline energy code and associated conventional design guidelines.
The tower’s integrated design approach results in a substantial decrease in the amount of electrical power required to operate the building’s cooling, heating, dehumidiﬁcation, ventilation, and lighting systems. Full implementation of Pearl River Tower’s sustainability strategies will result in overall energy savings of approximately 50% compared to China’s baseline energy code.
Why a Sustainia100 solution? Energy e ciency coupled with onsite renewable energy generation reduces the need for electricity from fossil-fuel power plants, lowering energy-related greenhouse gas emissions. The Pearl River Tower addresses the di cult task of constructing sustainable high rises.
ECONOMIC Pearl River Tower’s design o ers increased revenue potential resulting from the elimination of fan rooms and the reduction of airshaft sizes.
Developed in USA Deployed in China
“PEARL RIVER TOWER SHOWS THE SHAPE OF THE 21ST CENTURY—A HIGH-PERFORMANCE DESIGN THAT INTEGRATES ARCHITECTURE, ENGINEERING AND TECHNOLOGY TO CREATE A HIGHLY SUSTAINABLE SUPER-TALL BUILDING.”
RICHARD F. TOMLINSON, II, PARTNER, SOM
The tower’s sculpted body directs wind to a pair of openings at its mechanical ﬂoors, where traveling winds push turbines, which generate energy for the building.
Solution by Skidmore, Owings & Merrill LLP 30
Buildings
Rainwater-Harvesting Schools
PitchAfrica has developed a school building concept for disadvantaged communities in semi-arid regions that provides clean water year round and imparts sustainability lessons.
Waterbank schools are low-cost rainwater-harvesting school buildings comprising a large roof, a central underground cistern, and an integrated ceramic water ﬁltration system providing clean water and food year round. The school buildings integrate community spaces with a wide range of school needs: classrooms, ofﬁces, dormitories, canteens, and sport-courts. The ﬁrst Waterbank school, built in Kenya, captures, stores, and ﬁlters 350,000 liters of water a year. Since opening, attendance has risen by 25% to 95% and instances of waterborne disease have dropped to zero among pupils.
Why a Sustainia100 solution? The majority of the 345 million people in Africa without access to clean water live in regions with inadequate rainfall. The World Bank estimates that 200,000 classrooms need to be built in sub-Saharan Africa each year. Waterbank schools place a sustainable supply of clean water at the heart of the school, improving children’s health, while educating them about sustainable lifestyles and practices.
ENVIRONMENTAL According to UNEP, there is 13 times the amount of rain falling in Africa than is 1 needed by its population .
SOCIAL According to WHO, 40 billion work hours are lost every year in Africa because of the need to collect water.
ECONOMIC Waterbank schools can be built for the same cost as conventional schools, using locally available materials and local expertise.
Developed in USA Deployed in Kenya, Senegal, Malawi
A Waterbank school costs the same as a conventional school but provides triple the space and harvests 350,000 liters of clean water annually.
“A WATERBANK SCHOOL ENLISTS THE RAIN TO TRANSFORM A CHILD’S HEALTH, EDUCATION AND THE FUTURE OF THEIR COMMUNITY .“
JANE HARRISON, EXECUTIVE DIRECTOR, PITCHAFRICA
1
ICRAF & UNEP, “Potential for Rainwater Harvesting in Africa: A GIS Overview.”
Solution by PitchAfrica 31
Food
32
Food
Key trends
Food sector
Reducing food waste
Energy-e cient production
Prolonging lifetime of food products
Safer and more e cient cooking methods
Reusing waste products
33
Food
34
Food
Package-Free Grocery Store
By encouraging customers to bring their own containers and ﬁll them with real, local food, the in.gredients grocery store reduces food waste and packaging.
According to the company, 40% of food is thrown away. in.gredients provides customers with a solution to food and packaging waste while building community around a sustainable food system.
ENVIRONMENTAL On average, the in.gredients store sends less than ﬁve pounds of trash and zero pounds of food waste to the landﬁll each month.
Customers bring in any container, weigh and label their containers, and ﬁll it with bulk food and household items, reducing food and packaging waste. The business model incorporates a neighborhood food hub, with an outdoor space and organic garden.
Why a Sustainia100 solution? In the U.S., each person generates almost two kilos of trash per day. In.gredients’ customers shop for healthy, local food and reduce the amount of waste sent to the landﬁll. In order to provide the community with high-quality products that support the local economy, a majority of the products are locally grown and produced.
SOCIAL The produce grown in the volunteer-run garden goes back to neighborhoodsupported agriculture, providing fresh, healthy food for the community.
ECONOMIC Sixty-nine percent of the cost of goods sold has been from local vendors, supporting the local economy and helping to build the community.
Developed in USA Deployed in USA
Solution by in.gredients 35
Food
Seawater Desert Greenhouses
The Seawater Greenhouse transforms seawater into cool, humid air, fresh water, salt, and nutrients, enabling crops to be grown in hot, arid regions.
The world is not short of water; it is just in the wrong places and too salty. Converting seawater to fresh water, in the right places, o ers great potential. Seawater Greenhouse uses seawater to cool, sterilize, and humidify the air going into the greenhouse. Cooler and more humid conditions reduce the water demand of plants severalfold, typically by 4-8 times that of plants grown outside. In addition to the saved fresh water, both the yield and quality of plants are higher.
Why a Sustainia100 solution? With an increasing global demand for fresh water, agriculture is under pressure as one of the most water-dependent sectors. In general, agriculture uses 60-80% of the planet’s scarce fresh water1 . Shortage of water a ects the carbon cycle, as shrinking forests reduce carbon capture.
ENVIRONMENTAL Unlike traditional greenhouses, which often rely on fossil fuels for temperature control, Seawater Greenhouses use only seawater and sunlight to control growing environments.
SOCIAL Food can be grown where agriculture is constrained by a lack of water and high temperatures, leading to improved food access in water-scarce areas.
ECONOMIC According to the company, the technology enables development of land normally considered unsuitable for agriculture, coupled with lower capital and operating costs.
Developed in UK Deployed in Canary Islands, Abu Dhabi, Oman, Australia
1
The Guardian, “growing food in the desert: is this the solution to the world’s food crisis?”
Solution by Seawater Greenhouse 36
Food
Keeping Food Fresh from Farm to Fork
A piece of paper can reduce global food waste. Low cost, compostable, and infused only with organic spices, FreshPaper keeps produce fresh 2-4 times longer.
FreshPapers are sheets of paper that are simply dropped into containers, boxes, and bags of produce. By keeping food fresh from farm to fork in a scalable and sustainable way, while signiﬁcantly reducing resource and energy costs, FreshPaper promises to positively impact the food economy and transform the lives of the 1.6 billion people who still lack access to refrigeration. FreshPaper has spread from a single farmer’s market to farmers, retailers, and consumers in over 35 countries. Through its “Buy a Pack, Give a Pack” initiative, Fenugreen matches purchases with donations of FreshPaper to food banks, and is now working to provide FreshPaper to farmers in the developing world.
Why a Sustainia100 solution? While the world’s farmers harvest enough to feed the planet, we lose 25% of our food supply to spoilage, leaving 800 million hungry and exacting staggering societal and environmental costs.
ENVIRONMENTAL The UN acknowledges that the demand for food increases steadily with the growth of the world population, negatively impacting food resources and prices.
SOCIAL FreshPaper empowers families and farmers to address food waste, reducing the tremendous amounts of land, energy, and water lost across the entire food system.
ECONOMIC FreshPaper keeps food fresh 2-4 times longer by naturally inhibiting bacterial and fungal growth, working like refrigeration without energy and infrastructure costs.
Developed in USA
Deployed in 35 countries, including: USA, Canada, France, Italy, Germany, Spain, Denmark, UK, Greece, Australia, New Zealand, Mexico, Brazil, Argentina, Thailand, Japan, India, South Africa, Malawi, Haiti
FreshPaper is a simple 5”x 5” sheet that can keep several pounds of produce fresh.
“SIMPLE IDEAS ARE OFTEN THE MOST POWERFUL.”
KAVITA M SHUKLA, INVENTOR & FOUNDER, FENUGREEN
Solution by Fenugreen 37
Food
Lighting System “Listens” to Plants
With LED lighting systems including smart biofeedback, Heliospectra automates plant production while achieving longer durability, energy savings, and increasing yield.
The Heliospectra LED lighting system with biofeedback “listens” to plants by using reﬂected light and ﬂuorescence. This information helps the system optimize the light spectrum to produce only the necessary light required, while encouraging desired plant characteristics. The result is energy and water saved, yield increased, waste reduced, and quality improved. A software management system provides growers with improvements based on the results of the whole grower community. The data is aggregated in an online database with predictive algorithms creating the best light conditions for growers depending on the type of crops and environmental conditions.
Why a Sustainia100 solution? With changes due to global warming, increased population, and urbanization, there is a need for locally produced food with continuous and regular crops. With LED-based lighting systems, it is possible to reduce energy costs, create healthier and more durable plants, and reduce waste as well as the need for transportation.
ENVIRONMENTAL The system can reduce CO2 emissions by 21 million metric tons annually if used by 20% of the market.1
ECONOMIC Reduction in energy costs and waste, as well as increased yield, improve economic and environmental performance.
Developed in Sweden, UK, USA, Australia
Deployed in Sweden, UK, USA, Australia
1
WWFClimate Solvers, “L4A E cient Greenhouse Lighting.”
The smart lighting system consists of remotely controlled, adjustablespectrum lights combined with sensors that provide information on how the plants are using the light.
Solution by Heliospectra 38
Food
Intelligent Thermostats for Beverage Cooling
This solution minimizes energy use by observing consumer behavior and learning about the working environment refrigeration appliances operate in.
Elstat’s Energy Management System is an intelligent thermostatic control for commercial refrigeration appliances. The controllers have the ability to gather tra c and consumption data around the cooler. This data is used to build an accurate overview of shop opening hours, cooler usage, and its ability to bring freshly loaded beverages to the desired temperature.
ENVIRONMENTAL According to Elstat, the product is capable of preventing the release of the equivalent of 2.2 million metric tons of CO2 annually.
The solution achieves energy savings in the range of 25-40%, by knowing exactly when drinks need to be cool and assures the optimum serving temperature when the shop is open and people use the cooler.
Why a Sustainia100 solution? Refrigeration is claimed as one of the greatest innovations in the history of the food and beverage industry, providing consumers both rich and poor with a safe and convenient solution. Yet its primary functions have barely changed in 100 years and remains a signiﬁcant contributor of CO2 emissions. By intelligently adjusting the functionality of the refrigerator to the needs of the users, it is possible to gain energy, and economic savings.
ECONOMIC Elstat claims a potential of $560 million saved annually in energy costs.
Store closed
Developed in UK Deployed in 90+ countries across Africa, Asia, Australia, Europe, North- and South America.
Store open
Store closed
°C
14
Elstat’s Energy Management System learns and adjusts to the appliance’s working environment, reducing energy use and optimizing system performance.
12
10
8
6
Optimum product temperature during store opening
4
2
0
Midnight
6am
9am
6pm
9pm
Midnight
Solution by Elstat 39
Food
Cheaper Meals with Heat-Retention Cookers
The Wonderbag saves energy, water, and time by making cooking more energy e cient.
The Wonderbag is a non-electric, heat-retention cooker that enables food that has been brought to boil on a stove or ďŹ re to continue cooking for hours after it is removed from the fuel source. The insulating abilities of the bag allow food to ďŹ nish cooking without the use of additional fuel.
ENVIRONMENTAL According to the company, using the Wonderbag saves up to half a metric ton of carbon emissions per year.
The solution is time e cient, as there is a limited need for tending to the food. Instead, time can be better spent looking after children, earning an income, or doing essential chores. Wonderbag enables families to save energy and money.
Why a Sustainia100 solution? In developing countries, there are huge challenges connected to the cooking process. Staple diets require long cooking hours, with limited access to energy and water. The heat-retention cooker makes it possible to limit the use of both. With limited access to clean fuels, the use of charcoal or wood for cooking is widespread. These cooking processes result in smoke inhalation and serious health risks.
SOCIAL Using the heat-retention cooker reduces risk of smoke inhalation and burns.
ECONOMIC According to the company, the Wonderbag reduces usage of cooking fuels by up to 60%.
Developed in South Africa
Deployed in South Africa, Turkey, Rwanda, Somalia (Somaliland), UK, Nigeria
Solution by Natural Balance 40
Food
Making Chutney out of Waste Food
Rubies in the Rubble limits food waste by reusing surplus fruit and vegetables to make new food products, while employing disadvantaged individuals.
Rubies in the Rubble addresses food waste by using otherwise discarded fruit and vegetables to produce chutneys and jams. The fruit and vegetables are picked fresh from the market before they are discarded. Preserves are a good way of making use of seasonal gluts and therefore provide a good starting point to address food waste. The company also provides training and employment opportunities for individuals needing help back on the employment ladder.
Why a Sustainia100 solution? According to the company, 16 million metric tons of food is wasted each year in the UK; research indicates that 60% of this is preventable. Avoidable food waste is responsible for 20 million metric tons of CO2 per year. By focusing on employing disadvantaged individuals, the company also addresses the social challenge of almost 1/4 of all working age Londoners being unemployed.
ENVIRONMENTAL According to the company, avoidable food waste is responsible for 20 million metric tons of CO2 per year.
SOCIAL By hiring individuals struggling to get back into employment, it is possible to strengthen conﬁdence, skills, and level of responsibility.
ECONOMIC The UK generates over 16 million metric tons of food waste every year, costing an estimated $34 billion annually.
Developed in UK
Deployed in UK
“ENDEAVOURING TO MAKE FOOD THAT NOT ONLY TASTES GOOD BUT IS GOOD.”
JENNY DAWSON, FOUNDER, RUBIES IN THE RUBBLE
Solution by Rubies in the Rubble 41
Food
Replacing Animal Protein in Diets
Beyond Meat replaces animal protein with plant protein. Doing so, the start-up creates nutritional value at a lower cost with an improved environmental footprint.
Americans consume ½ pound of protein per day versus the recommended ½ pound per week. Beyond Meat’s Chicken-Free Strips are a plant protein that mimics real chicken’s texture, bite, and succulence. Free of gluten, GMOs, cholesterol, trans-fats, hormones, and preservatives, the Chicken-Free Strips are made from a soy and pea protein blend that provides 19 grams of protein and 120 calories per 3 oz. serving. The company’s ﬁrst product is soy based, but future products could replace the controversial ingredient with ingredients like lupin, barley, or mustard seed protein.
Why a Sustainia100 solution? Plant protein beneﬁts human health while addressing critical issues of climate change, resource scarcity, and animal welfare. Beyond Meat’s manufacturing footprint is small enough to allow it to be replicated in any corner of the world. Relative to animal protein, Beyond Meat promises comparable nutrition at a lower cost with a lower environmental impact.
ENVIRONMENTAL According to the International Livestock Research Institute, livestock systems occupy 45% of the world’s surface area and cause up to 51% of worldwide greenhouse 1 gas emissions.
SOCIAL Plant protein has a positive impact on human health while also addressing animal welfare.
ECONOMIC Meat production is expensive due to its resource use; 2,500 gallons of water are required to produce a single pound of meat. 2
Developed in USA
“WOULD WE CONTINUE TO RAISE AND EAT ANIMALS IN SUCH STAGGERING NUMBERS IF A DELICIOUS AND PERFECT PLANT-BASED REPLICATION OF MEAT EXISTED? I DECIDED TO FIND OUT — AND FOUNDED BEYOND MEAT.”
ETHAN BROWN, FOUNDER AND CEO, BEYOND MEAT
Deployed in USA, Canada
1
World watch institute, “livestock and climate change.”
2
Robbins, john, “Diet for a new america.”
Solution by Beyond Meat 42
Food
43
Food
Red Worms Transform Waste into Fertilizer
Byoearth promotes vermicomposting and its organic fertilizer in rural and urban communities in order to improve the living conditions of vulnerable populations.
Byoearth uses red worms to transform biodegradable waste into 100% organic fertilizer through a digestion process. The solution combines vermicomposting with poverty eradication in vulnerable rural and urban areas and educates farmers on how to avoid the dependency of chemical fertilizer. The resulting produce is sold in the most remote areas of Guatemala. The technique of using red worms is well known and holds the capacity for more environmentally friendly waste management while at the same time empowering women and disadvantaged communities.
Why a Sustainia100 solution? Forty percent of the worldâ&#x20AC;&#x2122;s soil is heavily degraded, compromising the ability to grow food and nurture families. Vermicomposting transforms waste into a business while restoring damaged soil and saving water. The solution is replicable worldwide and is already empowering women in its production process and boosting the productivity of farmers.
ENVIRONMENTAL The fertilizer produced by worms adds beneďŹ cial bacteria to soil and improves the soilâ&#x20AC;&#x2122;s condition and nutrients.
SOCIAL Byoearth empowers women in urban and rural Guatemala and incorporates them in the production chain, creating a new source of income.
ECONOMIC According to Byoearth, farmers can save 15-25% of water when they use vermicomposting.
Developed in Guatemala
Deployed in Guatemala
Guatemalan woman in vermicomposting production plant.
Solution by Byoearth 44
Food
Redistributing Cosmetic Food Waste
Gleaning Network UK saves fresh fruit and vegetables from being wasted on UK farms, and redistributes them to food poverty charities.
Farmers across the UK often have no choice but to leave tons of their crops unharvested. Not because it is inedible, but because it does not look appealing. According to the Institution of Mechanical Engineers, as much as half of all the food produced in the world – equivalent to 2 billion metric tons – ends up as waste every year. Gleaning Network UK coordinates teams of volunteers, local farmers, and food redistribution charities to salvage food and redistribute it to food poverty charities like homeless hostels. So far, several tons of British produce have been redistributed, and the network is growing.
Why a Sustainia100 solution? According to FareShare, 5.8 million people su er from deep poverty in the UK, and this number is on the rise. Meanwhile, an estimated 20-40% of UK fruit and vegetables are rejected even before they reach the shops, often because of strict supermarket cosmetic standards. Gleaning Network UK target to reduce food waste and food poverty at the same time.
ENVIRONMENTAL According to the Gleaning Network UK, approximately 10% of the UK’s greenhouse gas emissions come from producing, transporting, storing, and preparing food that is never eaten.
SOCIAL One metric ton of gleaned produce provides roughly 12,500 portions of food, and Gleaning Network UK plans to reach 36 metric tons of produce by September 2013.
ECONOMIC Gleaning Network UK estimates that increasing the proportion of a farmer’s crop reaching the shelves by just 5% increases proﬁt margins by up to 60%.
Developed in UK Deployed in UK
Volunteers reclaim apples from being wasted at a farm in Kent. Two metric tons of apples from this one day were donated to FareShare in London.
Solution by Gleaning Network UK 45
Fashion
46
Fashion
Key trends
Fashion sector
Designing for disassembly
Upcycling services
Reinventing the fashion calendar Waterless textile dyeing
Turning trash into trendy clothes
47
Fashion
48
Fashion
Clothes Swapping Parties
Fashion is fabulous but doesn’t come cheap – for consumers or the environment. Futerra’s swishing concept organizes clothes swapping parties around the world.
Swishing gives women the chance to get new clothes without making an environmental impact. It’s a simple but powerful idea: Women bring at least one high-quality item they no longer want to a Swishing party. Everything is collected and displayed, and everyone chooses something they love to take home. Swishing is open source. Anyone can throw a party. Organizers download a pack from the Swishing website and promote their event through the site, Twitter, and Facebook . Swishing is a party, and its social nature has global appeal. Hundreds and thousands of women go to Swishing parties, from “Klädbyte” parties, in Sweden, to “Cambalache,” in Colombia.
Why a Sustainia100 solution? Swishing is closed loop – there are no new items at a Swishing event. Participating changes women’s habits by making second hand glamorous. The collaborative and celebratory approach has the potential to be scaled extensively.
ENVIRONMENTAL According to Futerra, a garment that is swished rather than bought new saves an average of 0.4 kg CO2 and cuts toxins and water use.
SOCIAL Swishing lets women celebrate their individual style in a collaborative and celebratory way.
ECONOMIC Futerra estimates that over 7,000 women in the UK swish 25,000 items every year, saving the participants substantial amounts on clothing expenditures.
Developed in UK Deployed in 40 countries in Africa, Asia, Australia, Europe, and North and South America
“IMAGINE FINDING A PERFECT NEW OUTFIT. NOW IMAGINE IT COSTS YOU NOTHING, YOUR FRIENDS HELPED YOU CHOOSE IT, AND IT CAME SERVED WITH A GLASS OF BUBBLY. THAT’S SWISHING”
LUCY SHEA, FOUNDER, SWISHING
Swishing parties are glamorous, social, and fun. And they’re redeﬁning fashion around the world.
Solution by Futerra 49
Fashion
Design for Disassembly
Timberland’s Design for Disassembly boots are designed to pursue a cradle-tocradle goal.
The Design for Disassembly (DFD) boots have the potential to be recycled to a much greater degree than other footwear. When boots are returned to Timberland, the company estimates it will be able to recycle at least 50% of the materials in a factory in the Dominican Republic. DFD shoes use fewer materials and more recycled content than earlier generations of Timberland’s Earthkeepers boots, keeping materials out of landﬁlls. Timberland says it will continue to work with designers and its value chain to get closer the ultimate goal: a true cradle-to-cradle product.
Why a Sustainia100 solution? Timberland is on a mission to make shoes with better materials using organic cotton, recycled PET plastics, and recycled rubber as the ﬁrst step towards reducing the company’s carbon footprint.
ENVIRONMENTAL Timberland has saved approximately 500 metric tons of carbon with its switch to DFD Earthkeepers boots.
SOCIAL DFD encourages consumers to think about the full life cycle of the products they consume, and creates jobs in the Dominican Republic.
ECONOMIC Carbon savings resulting from the switch to manufacturing DFD boots is equivalent to the energy and heating used during three months at Timberland’s New Hampshire, USA, headquarters.
Developed in USA
Deployed in 61 countries in Africa, Asia, Australia, Europe, and North and South America
Solution by Timberland 50
Fashion
Vintage Clothing Library
United Archive is a sustainable style library allowing women to borrow, wear, and return from a curated selection of quality vintage clothing.
The United Archive vintage clothing library o ers users access to a curated wardrobe extension of quality garments, without accumulating an expensive closet graveyard you never wear. The solution enables sustainable and a ordable style experimentation without the guilt factor. Rather than buying a succession of expensive pieces worn only once, customers simply borrow from United Archive and return the garment after use.
Why a Sustainia100 solution? United Archive o ers access over ownership and is striving towards a more circular economy by giving an extended life to underutilized garments, which are in high demand, and o ering an alternative to fast fashion and high cost-per-wear items.
ENVIRONMENTAL United Archiveâ&#x20AC;&#x2122;s clothing library extends the lifecycle of underutilized garments.
SOCIAL The access over ownership model is an a ordable alternative to fast fashion that allows more people to wear quality garments.
ECONOMIC Australians spend approximately $1.7 billion annually on clothing they do not wear, according to United Archive.
Developed in Australia
Deployed in Australia
Solution by United Archive 51
Fashion
Sharing Design Globally for Upcycling Locally
Trash to Trend is a Web platform that enables upcycling by helping designers to cooperate with mass producers, brands, local services, and end users.
Upcycling means creating new value for waste materials in each stage of the lifecycle of a material. Trash to Trend o ers a solution to scale the opportunities for upcycling through a user-friendly Web platform, with tools for learning, cooperation, and creation of an upcycling market. This solution enables designers to play the central role not just in designing a garment but also in o ering input in material development that reduces toxicity without losing durability and improving production methods towards zero waste and material reuse. Finally, Trash to Trend assists designers in developing new services that enable changes in how people act when purchasing and treating their clothes.
Why a Sustainia100 solution? Upcycling done in mass production in Bangladesh demonstrates that each new garment made of waste materials uses an average 85% less water and creates 84% less CO2 compared to a typical mass-produced item.
ENVIRONMENTAL The Trash to Trend platform can lead to signiďŹ cant savings in resource consumption by spreading high-quality upcycling design.
ECONOMIC Upcycling enables cost-cutting in mass production, it demands low investment in R&D, and gives fast outcomes in terms of sales and reduction of energy and resource use.
INDUSTRIAL UPCYCLING BY AUSDESIGN.
FROM PRODUCTION WASTE TO A NEW PRODUCT BEFORE LEAVING THE FACTORY
Developed in Estonia, Bangladesh
marker
cutting leftovers
rollends
overproduction
Deployed in Estonia, Latvia, Lithuania, Bangladesh, India, Norway, Sweden, Denmark, Finland
CRAZY SAVINGS
84% less CO
calculated per item
2
85% less H O
calculated per item
2
EFFICIENT
Parellel production with main collection.
ACCESSIBLE GREEN
Global approach, possible for everybody around the world More eďŹ&#x192;cient than recycling: faster, much less energy, water and time consumed.
IMMEDIATE
Fast design process, in cooperation with brand design team.
www.reetaus.com Solution by Aus Design, ReUse, Beximco, NICE Fashion, and Estonian Academy of Arts
52
Fashion
Reversible, Versatile and Sustainable Fashion
In 2012, Loomstate launched a fashion line called “Loomstate 321 – 3 ways 2 wear 1 piece”. The concept combines color, reversibility, and versatility using one knit fabric: Tencel.
Tencel comes from sustainably grown forests of beech and eucalyptus tree that require less land, water, and soil nutrients than any other natural ﬁber. Ninety-nine percent of solvents used to process the wood pulp into soft, silky threads are recycled in a closed-loop system. Loomstate says it is dedicated to organic cotton but is also constantly learning about new sustainable ﬁbers, like Tencel, and incorporating them into its designs.
Why a Sustainia100 solution? Fashion has been an incredibly wasteful industry. Loomstate aims to change that by producing long-lived clothing made from sustainably grown materials. The 321 collection goes even further by reducing the amount of clothing a person needs to purchase. Each garment is constructed with multiple layers of colorful fabric that can be ﬂipped and reversed and worn multiple ways. The mission, Loomstate says, is to unite sustainability with modern style.
ENVIRONMENTAL Tencel is produced from renewable and sustainable resources using a closedloop system with minimal impact on the environment.
SOCIAL Loomstate hopes its 321 line will encourage customers to rethink fast fashion and ﬁnd more value in each piece of purchased clothing. Clothing oneself in sustainable apparel encourages sustainable living.
ECONOMIC By creating high-quality apparel that can be worn in multiple ways, the 321 line limits the garments that a customer needs to purchase, saving money and time.
“SUSTAINABILITY IS ABOUT LOOKING AT OUR PRODUCTS AS THE EMBODIMENT OF COMMUNITIES AND ECOSYSTEMS IN WHICH WE OPERATE. CONSIDERING THE LIFE AND IMPACT OF A PRODUCT IS HOW WE DRESS SMART.”
RHETT GODFREY, DIRECTOR OF SUSTAINABILITY, LOOMSTATE
Developed in USA Deployed in USA
Solution by Loomstate 53
Fashion
Sustainable Clothing made Proﬁtable
Years of commitment to achieving sustainability certiﬁcations have lead to Neutral.com developing a holistic approach to produce basic clothing for consumers and other labels.
Truly sustainable clothing production requires holistic approaches and certiﬁed processes. Neutral.com is producing basic clothing using organic cotton, recycling wastewater and waste and using alternative energy to power factories while giving poor farmers extra money with Fairtrade and workers proper rights. The process is certiﬁed and monitored by independent, internationally recognized organizations to ensure a trustworthy ﬁnal product. With its credibility, Neutral.com has become a platform for businesses, NGOs, the public sector and other fashion labels to improve their own sustainable storytelling thereby making the products attractive business propositions beyond selling directly to consumers.
Why a Sustainia100 solution? Neutral.com is certiﬁed according to best in class environmental, social and ethical standards: GOTS, EU Eco-Label, Fairtrade and SA8000. By making a proﬁt, the company is paving the way towards structural change in the huge and highly scalable market for basic clothing.
ENVIRONMENTAL With the GOTS sustainable cotton and the EU Eco-Label certiﬁcates, Neutral.com cleans and reuses wastewater, uses wind energy, reduces and recycles waste
SOCIAL Combining Fairtrade and certiﬁed organic cotton is life changing for farmers, the SA8000 certiﬁcation is the highest worker rights standard.1
ECONOMIC Neutral.com proves that the extra cost of certiﬁcations is a proﬁtable business model when products are designed to create added value for consumers, companies and organizations.
Developed in Denmark and India
Deployed in India
“WE BELIEVE IN BEING OKAY. WITH 100% COMMITMENT TO CERTIFIED CLOTHING, WE CAN IMPROVE OUR PLANET, MAKE PEOPLE HEALTHIER AND GIVE FARMERS HOPE. THAT’S OKAY.”
LARS BECH, FOUNDER, NEUTRAL.COM
1 Environmental Justice Foundation, “The Deadly Chemicals in Cotton”.
Solution by Neutral.com 54
Fashion
Neutral.com is about leveraging peopleâ&#x20AC;&#x2122;s passion for sustainable change to create best practice in production.
55
Fashion
Textile Dyeing without Water or Waste
The use of supercritical ﬂuids in textile dyeing completely eliminates the use of water and reduces the energy required to dye textiles.
Employing supercritical ﬂuids technology in textile dyeing has the potential to revolutionize the textile industry. This waterless solution not only conserves a valuable and diminishing resource, it also uses less energy than traditional water-based textile dyeing. Rather than using aqueous or solvent solutions, Applied Separations’ technology uses supercritical CO2 to take up the dye, which replaces water completely. And instead of sending the spent mix to waste-treatment facilities (or into rivers and lakes, as is sometimes done in less-developed production facilities), the dye-mix can be captured and reused. The CO2 for the process is taken from the environment and returned to it, creating no pollution and no waste.
Why a Sustainia100 solution? The textile industry is a major consumer of water, as evidenced by the 25 liters of water required to dye just one T-shirt. Applied Separations’ supercritical ﬂuids technology is viable and currently under production with industry partners. 2013 looks to be a breakthrough year for the technology, allowing the process of textile dyeing to become more resource e cient.
ENVIRONMENTAL Supercritical ﬂuids technology eliminates use of water in dyeing textiles.
SOCIAL Water-poor areas around the world can become or continue to be viable locations for textile manufacturing.
ECONOMIC Applied Separations claims that the use of supercritical ﬂuids in textile dyeing will require 50% less energy and 50% fewer chemicals, cutting production costs.
Developed in USA Deployed in USA, East Asia
“APPLIED SEPARATIONS IS EXCITED TO HELP REINVENT THE TEXTILE INDUSTRY. GREEN IS NOT JUST A COLOR.”
ROLF SCHLAKE, PRESIDENT AND CEO, APPLIED SEPARATIONS.
Solution by Applied Separations 56
Fashion
Reinventing the Fashion Calendar
The Anti-[fashion]-Calendar is an educational and production concept for young designers wanting to reduce consumption and waste and drive the industry towards ethical fashion.
Study NY’s Anti-[fashion]-Calendar reinvents the fashion calendar by educating young designers to create fewer styles and work closer to season. The concept o ers emerging designers a model for producing small capsule collections of 3-4 styles monthly, allowing more freedom and clarity in the design and development of each piece. Furthermore, with this concept, Study NY is demonstrating that collaboration with artisans in remote countries such as Peru and Afghanistan is viable for producing limited-edition, handmade goods. The Anti-[fashion]-Calendar slows down consumption by eliminating waste and educating consumers to be more aware of the sustainability of their purchases, leading to a permanent change in the world’s consumption habits.
Why a Sustainia100 solution? The Anti-[fashion]-Calendar improves the way future generations of designers manage cash ﬂow, reduces waste, and provides consumers with an understanding of quality in ethically made clothing. It also provides retailers with more consistent and seasonal products.
Fast Fashion Calender
Developed in USA Deployed in USA, Peru, Afghanistan
80 60 40 20 0
ENVIRONMENTAL According to the U.S. EPA, 13 million tons of textiles are disposed of each year in the USA.
SOCIAL Employment in the fashion industry is seasonal, with mass layo s in between seasons. The Anti-[fashion]-Calendar addresses this social challenge in developing countries.
ECONOMIC Making resource allocation more balanced throughout the year, the Anti-[fashion]Calendar ensures stabile cash ﬂows for upcoming designers.
Fast fashion has created a dependence on cheap, disposable clothing and unsustainable production methods, victimizing the workforce in developing countries and increasing waste in consumer nations.
Dec
Jan
Slow Fashion Calendar
60
Design
Sales
Production
50
40
“THE WANTS OF THE PRIVILEGED NATIONS SHOULD NOT AFFECT THE QUALITY OF LIFE OF OTHERS. INSTEAD, OUR PURCHASING POWER SHOULD BE USED TO HELP THOSE IN NEED.”
TARA ST JAMES, OWNER, STUDY NY
30
20
10
0
Jan
Feb
Mar
Apr
May
Jun
Jul
Aug
Sep
Oct
Nov
Dec
Solution by Study NY 57
Fashion
Upcycling Jewellery
Reworking and reusing perfectly good textiles and accessories not only reduces waste but is part of good living. Sustainable fashion isn’t just another trend; being resource-minded is the future.
Lumoi creates eclectic, sustainable jewellery made from unwanted materials shipped to their upcycling service. “Fast fashion” accessories encourage wastefulness due to their low cost and lack of quality. Lumoi redesigns these “undesirable” materials into new objects of beauty. The company ensures its jewellery is hand-crafted to the highest standard for durability so accessories last. This approach ensures environmentally friendly production, avoids waste, and results in sustainable jewellery.
Why a Sustainia100 solution? The need to ﬁnd alternative ways to deal with waste has never been greater. Consumers throw an astonishing amount of textiles and accessories into landﬁlls each year. Lumoi says its upcycling service is an eco-friendly way to dispose of broken, fast fashion jewellery.
ENVIRONMENTAL Upcycling fast fashion accessories keeps perfectly good materials from entering landﬁlls. By pursuing opportunities for reuse, the UK alone could reduce its reliance on raw materials, including rare earths, by up to 20% by 2020.
SOCIAL Lumoi says its upcycling jewellery service illustrates the true value of ﬁnite natural resources, giving people an option to change their habits.
ECONOMIC UK businesses can save up to $35.75 billion through low- or no-cost improvements in the e cient use of resources, according to research from the Department for Environment, Food and Rural A airs in the UK.
Developed in UK
Deployed in UK, Canada, Australia
Solution by Lumoi Jewellery 58
Fashion
New Fashion from Fabric Discards
Piece x Piece creates women’s clothing from discarded fabric samples recovered from local fashion studios. Each garment is original, handmade, and sewn in small quantities.
Piece x Piece was established in response to the large amount of fabric waste common in the fashion industry. The company says its mission is to create beauty from fabric waste, and to stimulate thinking about what “waste” really means and how we address it.
Why a Sustainia100 solution? Thousands of sample fabric swatches are discarded each season; until now, it had been di cult to imagine a use for them. The result of ongoing reclamation, experimentation, and design, each Piece x Piece garment is, by nature, one-of-a-kind. The fabric used in each piece is selected from an ever-changing stock of luxury discards.
ENVIRONMENTAL Design houses discard 5,000 or more swatch cards every year used for development. Piece x Piece uses these new and viable fabrics which are normally thrown away in the early stages of clothing design.
SOCIAL At least 75% of consumers think about the ecological and social impacts of the clothes and products they purchase. This group is a powerful force in the consumer market.
ECONOMIC Piece x Piece reduces waste and stimulates San Francisco’s economy by creating fair wage jobs and manufacturing locally.
“PIECE X PIECE IS A THOUGHTFUL DISRUPTION TO THE TRADITIONAL PATH ONE USUALLY TAKES IN THE APPAREL INDUSTRY FROM FABRIC MILL TO LANDFILL.”
ELIZABETH BRUNNER, FOUNDER AND CREATIVE DIRECTOR, PIECE X PIECE
Developed in USA Deployed in USA
Piece x Piece creates beautiful, high-quality clothing from discarded fabric samples recovered from local design studios.
Solution by Piece x Piece 59
Transportation
60
Transportation
Key trends
Transportation sector
Sharing is gaining ground
Electric means of transportation
Ships powered by renewables
Hydrogen cars in mass production
New ways of EV charging
61
Transportation
62
Transportation
Solar-Powered EV Charging Stations
Combining solar chargers in parking lots with an IT and energy management system, Solbanken is an easy-to-use, rental option for renewable EV charging.
Solbanken (The Sun Bank) enables solar charging in connected chargers using parking lots as solar energy parks. The Solbanken platform connects new or existing photovoltaic (PV) systems to EV charging stations with smart grid functionalities such as “direct charging” from nearby solar systems and adjustment of power consumption to real-time solar production. Should additional electricity be needed, Solbanken automatically purchases clean solar electricity from external producers. The shading PV canopy o ers protection against the sun and rain, and requires minimal area in parking lots.
Why a Sustainia100 solution? Transportation accounts for over half of global oil consumption, and this share will increase if the number of passenger cars doubles as predicted by the IEA. Replacing gasoline cars with electric cars is not as environmentally friendly if they are driven on fossil fuel-based electricity. WWF estimates that Solelia’s solar-powered charging can save 21 million tons of CO2 emissions per year by 2022.
ENVIRONMENTAL Transportation accounts for over half of global oil consumption, and is set to increase with a predicted doubling of passenger cars.1
SOCIAL Air pollution in cities caused by tra c is on the world’s top 10 list of killer diseases, according to WHO.
ECONOMIC Solelia’s rental solution allows for solarpowered charging with no upfront investment needed from the customer.
Solelia’s solar chargers partnered with its Solbanken system allows for charging electric cars with clean solar electricity.
Developed in Sweden
Deployed in Sweden, Norway
1 International Energy Agency, “World Energy Outlook 2012.”
Solution by Solelia Greentech 63
Transportation
Kite-Powered Ships
A wind propulsion technology based on large towing kites enables cargo ships to cut costs and reduce emissions.
SkySails propulsion for cargo ships is a wind-propulsion system based on large towing kites that can be installed on new ships and retroﬁtted onto most existing ships. The technology o ers a solution that can make a major environmental impact by reducing the carbon emissions of the world’s merchant ﬂeet. Three cargo ships are currently equipped with SkySails, with a fourth ship expected to add the technology soon.
Why a Sustainia100 solution? Cutting-edge solutions in the ﬁeld of renewable energy are needed in order to meet the challenges faced by the shipping industry. Depending on the prevailing wind conditions, a ship’s fuel consumption and emissions can reportedly be reduced by up to 30% by using the SkySails system. The latest SkySails product has a maximal propulsion power of more than 2 MW, which approximates 2,700 horsepower and is equivalent to a ship engine.
ENVIRONMENTAL SkySails’ technology can save 100 million tons of CO2 annually if adopted broadly by the world’s merchant ﬂeet, according to the company.
SOCIAL Due to toxicity of ship emissions, there are more than 50,000 premature deaths each year in the coastal areas of the EU.
ECONOMIC According to SkySails, the technology can save up to 10 tons of oil per day, which equals cost savings of approximately $5,000 daily.
Developed in Germany
Deployed in Germany, Switzerland, Greece
Photo: SkySails
Solution by SkySails 64
Transportation
Wireless EV Charging
Using inductive transfer of energy, Qualcomm has developed a technology capable of wirelessly charging EVs – even when driving.
Qualcomm’s Halo EV charging technology uses inductive wireless energy transfer to eliminate the plug-in cord used by EVs today. The technology works by ﬁtting cars with a receiver pad that enables automatic charging when the car is parked via a transmitter pad embedded in the road. Qualcomm claims that its technology transfers power with the same e ciency as a cable. The company aims to embed wireless charging in continuous strings along the roadway, with EVs constantly being powered as they drive over them. Qualcomm is trialing its technology in London with a ﬂeet of 50 vehicles.
Why a Sustainia100 solution? Wireless EV charging addresses key challenges to electric car uptake: charging convenience and battery size and cost. The technology could be rolled out across cities and eventually on major transit routes, signiﬁcantly reducing the number and size of batteries needed for EVs and enabling electric car owners to travel greater distances.
ENVIRONMENTAL According to Qualcomm, 15% of the total environmental burden from EVs comes from the batteries.
SOCIAL Doing away with the plug-in cord makes use of electric vehicles more convenient.
ECONOMIC Wireless charging can make EV batteries smaller and cheaper because they need only be charged in small, frequent bursts.
Developed in Ireland, USA
Deployed in Denmark, Finland, France, Germany, Norway, Poland, The Netherlands, Sweden, USA
In London, a two-year trial, in association with Renault, will test the feasibility of and issues around wireless charging of EVs.
Solution by Qualcomm 65
Transportation
Peer-to-Peer Carsharing
A new collaborative consumption initiative helps people save money, make better use of existing resources, and think local by sharing their cars.
Buzzcar is a peer-to-peer carsharing platform, currently operating in France, where people rent out their own cars. The platform is available online with a location-based mobile app. The service matches people ready to share their car with people looking for a car to rent by the hour or by the day. To ensure quality, after each rental, drivers rate the cars, and the owners rate the drivers, building a vehicle and driver history. The company also covers liability insurance.
Why a Sustainia100 solution? Carsharing means fewer cars on the streets, less tra c jams, and less pollution. According to the company, car production represents at least 30% of carbon emissions over the carâ&#x20AC;&#x2122;s lifetime; Buzzcar reduces the need for car production and di ers from traditional carsharing, as the solution doesnâ&#x20AC;&#x2122;t add cars to the streets, but simply makes better use of cars already on the road.
ENVIRONMENTAL According to Buzzcar, a properly shared car takes 8 cars o the road. Buzzcar optimizes the utilization of existing cars, so fewer cars are added to the streets.
SOCIAL More than 20,000 people have joined Buzzcar, participating in collaborative car consumption.
ECONOMIC According to Buzzcar, owners renting out their car earn an average $130 monthly and renters save up to 40% compared to traditional car renting.
Buzzcar makes it simple to connect people ready to share their vehicles with people looking to rent a car
Developed in France
Deployed in France
Solution by Buzzcar 66
Transportation
Hydrogen-Powered Fuel-Cell Car
Hyundai ix35 Fuel Cell is the world’s ﬁrst series-produced, commercially available hydrogen-powered fuel-cell car. It o ers zero harmful tailpipe emissions and quiet operation without range compromises.
ENVIRONMENTAL When the hydrogen used to power cars is from a carbon-neutral source, near carbon-neutral, emission-free personal transportation becomes possible.
The third-generation fuel-cell electric vehicle (FCEV) from Hyundai is powered by hydrogen and driven by an electric motor, resulting in zero harmful tailpipe emissions and quiet operation. A single tank of hydrogen gives a range of almost 600 kilometers, and refuelling takes just a few minutes, according to Hyundai. In January 2013, the Hyundai ix35 Fuel Cell became the ﬁrst fuelcell car in the world to enter series production. Deliveries to municipal and private ﬂeets are already under way, with 1,000 units to be built by the end of 2015.
Why a Sustainia100 solution? The ix35 Fuel Cell demonstrates how hydrogen-powered FCEVs o er an e ective solution that can help deliver sustainable mobility, as hydrogen refuelling infrastructure grows and production volume increases. When produced directly from renewable sources, hydrogen can be 100% clean, if produced directly from renewable sources. The only tailpipe emissions are water vapor.
SOCIAL The Hyundai ix35 Fuel Cell contributes to improved health through cleaner air.
ECONOMIC Hydrogen can be produced locally at or near the point of use, meaning that every community can become an energy producer.1
Developed in South Korea
Deployed in Belgium, Denmark, The Netherlands, Norway, South Korea, Sweden, UK, USA
The Hyundai ix35 Fuel Cell is the world’s ﬁrst seriesproduced fuel-cell car. Fuelled by hydrogen in just minutes, it emits only water vapor, and boasts a near-600-kilometer range.
“THE IX35 FUEL CELL SHOWS WE ARE COMMITTED TO A SOCIETY OF SUSTAINABLE ENERGY AND ZERO-HARMFUL EMISSIONS IN ROAD TRANSPORT.”
IVAN FOSSAN, ADM. DIRECTOR, NORLED
1
Centre for Energy, Canada: “How Is Hydrogen Produced?”
Solution by Hyundai Motor Company 67
Transportation
Urban Bike-Sharing
Hangzhou, China, boasts the world’s largest bike-sharing program.
The Hangzhou bike-sharing system has 60,600 bikes operating from 2,700 stations. Bike-sharing stations can be found every 100 meters. Users can ride for free for the ﬁrst hour, followed by 1 yuan ($0.16) for the second hour, 2 yuan ($0.33) for the third hour, and 3 yuan ($0.49) for each additional hour. First-time users pay a 200-yuan ($32.50) deposit to obtain a smart card for bike-sharing use. Smart-card technology facilitates automated check-in and check-out at bicycle docking stations. Hangzhou Public Bicycle plans to expand to 175,000 bikes by 2020.
ENVIRONMENTAL Bike-sharing can displace trips by car, which reduces tailpipe emissions and tra c congestion.
SOCIAL Quick and convenient bike-sharing programs make it easy to get around by bike, which promotes healthy living.
Why a Sustainia100 solution? The Hangzhou Public Transport Corporation launched the bike-sharing system in 2008, in response to growing tra c congestion and air pollution. A March 2010 survey of Hangzhou Public Bicycle members and non-members found that 30% of bikeshare users incorporated bike-sharing into their commute. The survey also found that the bike-sharing system captured modal share from bus transit, walking, cars, and taxis.
ECONOMIC The bikes are free to use the ﬁrst hour and provide a free or cheap alternative to cars for shorter distances.
Developed in China Deployed in China
Solution by Hangzhou Public Transport Corporation 68
Transportation
Electric City Bus with 250-km Range
With a range of 250 kilometers on a single charge, this all-electric bus has the ability to deliver large-scale sustainable public transportation.
BYD ebus is a pure electric city bus with no tailpipe emissions and very low noise levels. The bus is powered by BYDâ&#x20AC;&#x2122;s Fe (lithium iron phosphate) batteries, which are characterized by high energy density, long service time, and low cost, according to the company. Powered by three battery packs with a combined capacity of 324 kWh, the lightweight BYD ebus has a range of 250 km on a single charge in urban conditions. With a charging power of 60 kW, BYD ebus can be fully charged in about 5 hours, and thus can be charged at night during o -peak hours. BYD says that the chemical materials contained in the battery can be safely recycled.
Why a Sustainia100 solution? With the ebus, BYD aims to gradually replace gasoline or diesel buses with fully electric models that can dramatically reduce air pollution from the transportation sector. The ebus is estimated to reduce operating costs by 30% or more and fuel cost savings by up to 80% compared to a standard diesel bus.
ENVIRONMENTAL If all buses in Shenzhen, China, are replaced by the ebus, potential CO2 emissions reductions are over 1 million tons per year, according to company data.
SOCIAL The ebus enables swift public transport at very low noise levels.
ECONOMIC In Shenzhen alone, if all the public transportation were electriďŹ ed, the city would save about $563 million annually.
Developed in China
Deployed in The Netherlands, UK, Denmark, Uruguay, Hungary, Colombia, Canada, USA, China
Solution by BYD Company Limited 69
Transportation
Battery-Driven Car Ferry
Environmentally friendly ferry operation is not a distant dream. This smart, clean, and silent battery driven ferry will soon be at sea in Norway.
The world’s ﬁrst large all-electric car ferry is a 100% battery driven aluminium catamaran. The 80-meter-long vessel will be able to carry 120 cars and 360 passengers across the Sognefjord, in Norway. The ferry is designed with energy e ciency as highest priority, affecting operation, hull shape, materials, and on-board systems. The ferry will ply its route 34 times daily, with a crossing time of 20 minutes. The estimated time at port is 10 minutes, which will be used to fully charge the on-board, 1-MWh lithium-polymer battery pack.
Why a Sustainia100 solution? The electric car ferry now being produced by Fjellstrand does not discharge any greenhouse gases while operating. Compared to a standard diesel ferry serving the same route, the electric ferry will save about 1 million liters of fuel annually and prevent 570 metric tons of CO2 from entering the atmosphere, according to Norled. Besides environmental beneﬁts, the ferry will feature lower operational and maintenance costs.
ENVIRONMENTAL Domestic ferries in Norway emit approximately 400,000 metric tons of CO2 per year1.
SOCIAL With no air pollution or noise, the electric ferry is a pleasant and healthy alternative for both passengers and crew.
ECONOMIC Compared to a standard diesel ferry, an electric ferry will save approximately 30% on fuel, operational, and maintenance costs.
Developed in Norway
The world’s ﬁrst car ferry without any direct CO2 emissions will be tra cking Larvik-Oppedal, Norway.
Deployed in Norway
1 Opdal, O.A.: “Batteridrift av ferger”.
Solution by Norled and Fjellstrand 70
Transportation
Empowering AutoRickshaw Drivers
Three Wheels United tackles the challenges faced by the working poor in the auto-rickshaw sector in India while reducing CO2 emissions and air pollution.
Three Wheels United (TWU) is based on a three-pillar solution: fair loans to drivers enabling them to purchase their own auto-rickshaws, the possibility of additional streams of income to the drivers through advertisements, and clean technology that lowers fuel costs and lessens environmental harm. TWU has been operational in Bangalore for the past two years, and has achieved a total of 120 vehicles on the road and over 700 drivers registered in their savings scheme. They expect to reach a total of 750 vehicles in Bangalore by the end of 2013.
Why a Sustainia100 solution? With over 5 million auto-rickshaws in India, the sector serves between 10% and 20% of the daily engine-driven city commutes. TWUâ&#x20AC;&#x2122;s model makes drivers owners of their vehicles and encourages savings, while ensuring that the drivers are under a social security system. According to TWU, air pollution is reduced by 40%.
ENVIRONMENTAL By replacing two-stroke engines with cleaner-burning four-stroke models, TWU reduces harmful particulate and CO2 emissions.
SOCIAL Banks now consider TWUâ&#x20AC;&#x2122;s drivers to be worthy customers, with drivers able to receive health, life, and accident insurance.
ECONOMIC According to TWU, the solution increases the net earnings of drivers by over 70% from existing levels.
Developed in India, the Netherlands
Deployed in India
Solution by Three Wheels United 71
Transportation
Zero Emissions Transport Refrigeration System
Thermo King’s CryoTech transportation refrigeration system reuses CO2 for cooling, resulting in clean, green, and silent deliveries of perishable goods.
Thermoking has developed a technology, CryoTech, reusing CO2 in an innovative open-loop system that provides airﬂow for refrigeration in the load space of trucks and trailers. The CO2 used for cooling is a byproduct of ammonia production, resulting in no new greenhouse gas emissions. Thermo King CryoTech units achieve a signiﬁcant reduction in emissions and improved performance over conventional diesel-powered units. The system o ers faster temperature recovery, which is ideal for the distribution market, where the cooling unit is often interrupted as drivers deliver goods at multiple locations.
Why a Sustainia100 solution? The system has zero harmful emissions during the cooling cycle. Depending on application, CryoTech claims that the solution can deliver a 75% to 90% reduction in total greenhouse gas emissions. CryoTech units are virtually silent during operation and are an estimated 90 percent quieter than conventional diesel refrigeration units. This ensures reductions in urban noise pollution and happy neighbors in delivery areas.
ENVIRONMENTAL Zero harmful emissions during the cooling cycle.
SOCIAL Enables sustainable deliveries in urban areas by eliminating diesel engine noise.
ECONOMIC Reduces operational costs and may spare retailers and distribution companies from costs to comply with stricter noise and emissions regulations.
Developed in Ireland, USA
Deployed in Denmark, Finland, France, Germany, Norway, Poland, the Netherlands, Sweden, USA
Solution by Thermo King 72
Azuri-technologies Transportation
The Thermo King CryoTech solution enables clean, green, and silent deliveries of perishable products in urban areas while maintaining the load at high standards.
“WITH MORE THAN 600 UNITS IN SERVICE TODAY, WE HAVE SUCCESSFULLY SHOWN THAT THERMO KING CRYOTECH SOLUTION REPRESENTS THE SUSTAINABLE TRANSPORT REFRIGERATION SYSTEM OF THE FUTURE.”
PASCAL RICHARD, PORTFOLIO LEADER FOR AIR SOLUTIONS, TRUCK AND TRAILER, THERMO KING, EMEIA
THE IDEA BEHIND
Ingersoll Rand and its family of brands — including Thermo King® and Trane® — aim to provide products, services and solutions that tackle a number of sustainability issues and advance the quality of life. With award-winning products such as the SLXe, T-Series and CryoTech, Thermo King is committed to protect food and perishables during transportation by delivering e cient and sustainable transport refrigeration solutions. Trane, another brand of Ingersoll Rand, is creating and sustaining safe, comfortable and e cient environments by enhancing the quality and comfort of air in buildings. To advance these e orts, the Ingersoll Rand Center for Energy E ciency and Sustainability (CEES) was created and is further driving energy e ciency and sustainability into the innovation pipeline, manufacturing operations and employee education initiatives of Ingersoll Rand. The company believes that premier performance and enduring results will come from addressing urgent global social and environmental challenges in a way that is valuable to customers.
www.europe.thermoking.com
73
IT
74
IT
Key trends
IT sector
Big Data is booming
IT for empowerment in developing countries
Enabling resource sharing
Household energy solutions
Apps are taking over
75
IT
76
IT
Connecting Kenya’s Unconnected
Leveraging solar power and a new approach to delivering high-reliability broadband connectivity, this solution opens up the world of the Internet to rural Africans.
Using a new approach to wireless broadband called dynamic spectrum access, Microsoft and its partners have built a mobile broadband network that taps into previously unused TV spectrum, also known as TV White Spaces, to establish broadband Internet connections. Using the television frequency allows signals to travel much greater distances, and is claimed to outperform traditional wireless networking experiences. The wireless broadband connections are powered by solar panels, making the solution available o grid. This innovative approach to delivering broadband Internet is providing the beneﬁts of the knowledge society to some of the most rural and di cult-to-reach areas in Kenya.
Why a Sustainia100 solution? With billions of people still not connected to the Internet, new approaches must be developed, and they must be anchored in innovative and sustainable models. This solution is sustainable and scalable because of its healthy underlying business model and the nature of the multi-pronged approach.
ENVIRONMENTAL Solar energy is powering the broadband Internet.
SOCIAL Access to the knowledge and connectivity potential of the Internet can unlock unprecedented social change and community creation.
ECONOMIC Promoting education and enabling micro business, Internet access can drive signiﬁcant positive economic impact.
Microsoft and partners installing one of dozens of solar panels used to power wireless broadband connections to the Internet in rural Africa.
Developed in USA,UK
Deployed in Kenya
Solution by Microsoft, Indigo, and Adaptrum 77
IT
Software for Reducing Water Loss
TaKaDu’s software uses data from sensors to create actionable alerts about water network anomalies sent to users via an easy-to-use Web application.
TaKaDu has developed a novel approach to water network monitoring that helps water utilities increase network e ciency and save water. The solution takes data from existing sources, analyzes it using sophisticated statistical algorithms, and automatically locates and classiﬁes water network events, such as leaking pipes, at early stages. By using TaKaDu, utilities know sooner about network anomalies, such as leaks and meter faults and their location, gain improved network visibility, and can make better use of their resources. As a result, utilities using TaKaDu increase their team and network e ciency while saving water, energy, money, and time. As a softwareas-a-service solution, it can be deployed quickly and remotely, with no need for capital expenditure or onsite installation, allowing for wide adoption and scalability.
Why a Sustainia100 solution? Water utilities experience large losses due to ine ciencies in various parts of the water supply network. TaKaDu helps reduce water loss and increase network e ciency.
ENVIRONMENTAL According to TaKaDu, water loss amounts to 25-30% of the world’s water production, equivalent to $14 billion annually.
SOCIAL The World Bank estimates that reducing water losses in developing countries by 50% could provide water to an additional 90 million people.
ECONOMIC TaKaDu claims to increase ﬁeld crews’ e ciency and the early awareness of leakage events by 50%, generating greater water savings at lower cost.
Developed in Israel Deployed in Australia, UK, Spain, Portugal, Israel, Chile
TaKaDu utilizes existing network data to give water utilities real-time control over network events using statistical and mathematical algorithms and a user-friendly Web application.
“THE GLOBAL WATER CRISIS IS ACTUALLY A WATER MANAGEMENT CRISIS.”
Amir Peleg, Founder and CEO, TaKaDu
Solution by TaKaDu 78
IT
Mobile-Based Farming Information
Airtel Africa’s “Voice of the Farmer” initiative uses mobile phone networks to provide farmers in developing countries with agricultural information.
Working with the GSMA, mobile service provider Airtel Africa has initiated a project to provide approximately 250,000 small-holder farmers in Kenya reliable and relevant agricultural information via their mobile phones. The project, dubbed “Sauti ya Mkulima” (Swahili for “Voice of the Farmer”), o ers farmers access to pertinent agriculture-related information, advice, and research that will help them make better decisions about their crops, increasing the productivity of their yield, as well as their potential income.
Why a Sustainia100 solution? Better-informed farmers can increase the productivity of land already under cultivation. Airtel is exploring the use of alternative forms of energy, include hybrid battery banks and solar and wind power, to power its Africa operations. In recent months, 105 solar sites have been set installed in Nigeria, reducing the use of diesel generators from 24 hours to 3 to 4 hours daily.
ENVIRONMENTAL By the end of 2013, Airtel aims to eliminate the use of diesel to power its network.
SOCIAL Voice of the Farmer o ers farmers a way to share experiences and exchange information about social gatherings, events, and job opportunities.
ECONOMIC Timely, accurate agricultural information could help farmers increase productivity, which boosts yields and earnings.
Developed in Kenya
Deployed in Kenya, Uganda
Solution by Airtel Africa 79
IT
Using Big Data for Energy Savings
Combining mobile, cloud, and innovative Big Data technology, Bidgely empowers consumers to lower their energy bills by delivering real-time feedback and insights into energy consumption.
Bidgely’s Appliance Tracing is a cloud-based technology that analyzes energy data from millions of homes and generates appliancelevel insights without any plug-level sensors inside the homes. With cloud-based disaggregation algorithms, Bidgely extracts energy signatures that are unique to appliances in any household, measures energy consumption by each appliance, and identiﬁes the source of the greatest ine ciencies, whether it’s an appliance or a behavior. Using Web and mobile apps, Appliance Tracing takes the guesswork out of savings and provides customers with tools and tips to make informed decisions on how to become more energy e cient.
Why a Sustainia100 solution? Bidgely is a zero-touch, scalable technology that leverages the existing grid infrastructure and unlocks the potential of residential energy e ciency. Bidgely is already helping thousands of families to reduce their energy usage by 5-30% and live more sustainably.
ENVIRONMENTAL According to Bidgely, $50 in annual energy savings in every U.S. home is comparable to the CO2 absorbed by 4 billion trees.
SOCIAL Less money spent on energy bills leaves more disposable income to meet other necessities in life.
ECONOMIC According to the company, customers realize savings of between 5-30% on energy bills.
Bidgely’s cloud-based software extracts appliance-level insights from electric meter data, helping consumers identify ine ciencies and deliver energy e ciency at a massive scale.
Developed in USA
Deployed in USA, Canada, the Netherlands, Australia, New Zealand
Solution by Bidgely 80
IT
Online B2B Sharing Marketplace
FLOOW2 is a business-to-business marketplace where companies and institutions can share equipment and the skills and knowledge of personnel.
Via FLOOW2 companies of all sizes in the construction, agriculture, health care, transportation, real estate, and service industries can share their underutilized overcapacity of goods and services. The marketplace unites demand and supply. Owners generate a higher turnover and renters reduce costs by not buying products or hiring personnel. Business ﬂexibility is magniﬁed by working together and combining e orts. Doing more with what one already has leads to more sustainable businesses.
Why a Sustainia100 solution? By helping keep in check overproduction, less raw materials and energy will be consumed and less CO2 will be emitted. FLOOW2 gives a longer life to goods and enables every company worldwide to contribute to a more sustainable world.
ENVIRONMENTAL With FLOOW2, less new equipment needs to be produced, resulting in less energy and raw materials wasted.
SOCIAL FLOOW2 builds on collaboration and trust, which leads to better bonds and connectedness between people and companies.
ECONOMIC Companies renting out their capacity gain an improved return on investment for assets, and renters reduce investments in new equipment or permanent employees.
Developed in Luxembourg
Companies renting out their capacity gain an improved return on investment for assets, and renters reduce investments in new equipment or permanent employees.
Deployed in The Netherlands, Belgium, Luxembourg, Germany
“FOR COMPANIES TO BE MORE SUSTAINABLE, THINKING PATTERNS BASED ON COLLABORATION, SHARING AND TRUST, ARE VERY IMPORTANT.”
KIM TJOA, FOUNDING MEMBER FLOOW2.
Solution by FLOOW2 81
IT
Environmental Scoring of Companies
To encourage the development of sustainable supply chains, amee has created a freely accessible repository of environmental data on businesses and organizations in the UK.
amee has created the largest publicly available repository of environmental data by combining a range of data sources with its own statistical modeling system. Every business and organisation is given a unique proﬁle, which provides key environmental data such as annual carbon emissions. Companies are also given a score, the AMEEscore, to enable comparison with industry peers. Companies are then encouraged to update their proﬁles with actual data. By doing so, they demonstrate their commitment to transparency and sustainability – attributes increasingly valued by companies with large supply chains.
Why a Sustainia100 solution? The lack of credible environmental data on companies’ environmental performance is one of the biggest barriers to achieving more sustainable supply chains. Amee’s commitment to free and transparent environmental data, as well as use of big data, has the potential to disrupt conventional business models and scale globally.
ENVIRONMENTAL Credible environmental data on carbon emissions, water usage, and waste generation enable meaningful action towards sustainable supply chains.
SOCIAL Transparency provides insight for researchers and consumers.
ECONOMIC Companies gain further insight into their supply chains, and can use this information to reduce environmental and economic risks – remaining proﬁtable despite increasing resource scarcity and price volatility.
Developed in UK
Deployed in UK
“AMEE PASSIONATELY BELIEVES THAT GREENER BUSINESS IS BETTER BUSINESS”
TIM MURPHY, CEO, AMEE
Solution by amee UK 82
IT
Solar-Powered IT-Centers
Combining solar power and energye cient IT, NICE Centres o er ambitious young Africans technology solutions for education, work, and business.
NICE Centres are solar-powered IT-centers that combine several beneﬁts under one roof: a shop selling IT and renewable energy products; educational facilities o ering training courses in business and technology; business hubs o ering ﬂexible work spaces and networking opportunities to ambitious youth; and an outsourcing area o ering computer-based work to people to help them generate income. There are six NICE Centres operating in Gambia; local entrepreneurs operate two as franchises. NICE Centres are ﬁnancially viable businesses, as people pay for products and services on a pay-peruse basis. The existing NICE Centres in Gambia have demonstrated their ﬁnancial sustainability, and NICE plans to scale up to 250 centres across Africa by 2020.
Why a Sustainia100 solution? A 10% increase in Internet access generates 1.1-1.4% additional GDP growth1. NICE is giving people in Africa a ordable access to the Internet and helping them to use the Internet in a productive manner. By using solar power and energy-e cient computers, the environmental impact of the centers is reduced.
ENVIRONMENTAL Through energy e ciency and the use of solar, NICE Centres have a low environmental footprint.
SOCIAL NICE Centres help people gain access to an income, either directly by bringing in outsourced work or indirectly through education.
ECONOMIC According to the World Bank, improved access to the Internet results in GDP growth.
Developed in the Netherlands
Deployed in Gambia
The World Bank, “Information and Communications for Development - Extending Rreach and Iincreasing Iimpact.”
1
Solar-powered NICE Centres o er ambitious youth in Africa technology solutions for education, work and business.
Solution by NICE International BV 83
IT
Green Outdoor Site for Wireless Networking
With a smartly controlled separate cooling system and compatible design, Huawei’s Mini-shelter reduces energy consumption for cooling and makes the wireless site more environmentally friendly.
A wireless site or “hotspot” is a ﬁxed communications location that allows devices such as computers, tablets, or smartphones in proximity of the site to access the Internet. Huawei’s Mini-shelter greens wireless sites by separating the equipment and battery compartment according to di erent temperature requirements, which ensures zero energy waste from the cooling system. Compared with traditional solutions, the Mini-shelter saves up to 80% of energy consumption for cooling. Thanks to a highly integrated and standardized modular design, the Mini-shelter an increased housing capacity, realizing easy site acquisition and fast deployment.
Why a Sustainia100 solution? For a traditional indoor wireless site, cooling energy takes up more than 40% of the site’s energy consumption. Huawei’s Mini-shelter, with its focus on energy savings, drastically reduces this power consumption for cooling. More than 100,000 Mini-shelters have been deployed in 60+ countries, realizing more than 250,000 tons of CO2 emission reductions per year, according to Huawei.
ENVIRONMENTAL Up to 30% of site energy can be saved, and the compact structure of the site saves up to 50% of building materials, according to Huawei.
SOCIAL Huawei’s Mini-shelter reduces noise, and its small size saves up to 70% of land resources.
ECONOMIC According to a Huawei analysis, the Minishelter helps carriers save more than 30% on operating expenses annually.
Developed in China Deployed in Norway, Canada, Kuwait, Saudi Arabia, Bangladesh, China
Environmentally friendly Mini-shelter used as a wireless site.
“OUR MINI-SHELTER IS A DEMONSTRATION OF HUAWEI’S COMMITMENT TO A GREENER ICT ENVIRONMENT”.
TAO HONGMING, VICE-PRESIDENT OF HUAWEI NETWORK ENERGY PRODUCT LINE
Solution by Huawei Technologies 84
IT
85
IT
Industrial Symbiosis Web Platform
The Web-based platform SYNERGie enables organizations in an industrial symbiosis to record and analyze resource data, identifying links between participating companies.
International Synergies has developed SYNERGie, a Web-based platform that o ers database functionality, project management, and reporting tools for companies participating in industrial symbiosis programs. It enables users to record and manage information about resources such as waste materials, byproducts, processing capacity, waste heat, water, logistics, and expertise, which also include associated ﬁnancial and environmental beneﬁts. Together with technical support the platform provides companies and organizations with opportunities to maximize the value of their resources, reduce costs, generate revenue, and move towards zero waste.
Why a Sustainia100 solution? In an industrial symbiosis, companies exchange products, byproducts, and waste, which reduces the environmental footprint of industrial areas. SYNERGie provides companies with information that drives cooperation and more resource-e cient business models.
ENVIRONMENTAL Industrial symbiosis helps divert resources away from landﬁlls, reduces industrial water usage, carbon emissions, and demand for virgin materials.
SOCIAL Supporting a new way of doing business, industrial symbiosis is based on increased collaboration and trust between companies.
ECONOMIC The platform aids companies in achieving cost savings through reduced waste disposal, purchasing, storage, and transport costs, and creates value for previously unvalued resources.
Developed in UK
Deployed in Belgium, Brazil, China, Finland, Hungary, Mexico, the Netherlands, Poland, Romania, Slovakia, South Africa, Turkey, UK
Solution by International Synergies 86
IT
Solar-Powered PCs for Education
Thinlabs and its partners are creating a ordable solar-powered computers for educational use in rural areas of developing countries.
Using solar energy to power batteries for cheap energy e cient desktop computers, this solution seeks to address many of the challenges related to the adoption of computers in the schools of developing countries, e.g. scarcity of electricity and usually high initial as well as maintenance costs. These computers are designed for an average lifespan of 5 to 7 years and are built using low power components, reducing the power consumption below 30 Watts. The batteries are capable of running for a whole school or working day without having to be charged. The product is currently in development and should be ready by early July, according to ThinLabs.
Why a Sustainia100 solution? One thing available in plenty in the developing world is the sun. Using solar energy for powering computers with low power consumption, along with a long life span of hardware, is contributing to making this solution environmentally-friendly. Disseminating this solution will improve access to IT and thus help to foster social and economic progress.
ENVIRONMENTAL Solar powered and made of environmental friendly and recyclable materials.
SOCIAL IT in education helps foster social progress, and with their large 22â&#x20AC;? screens the models encourage a collaborative learning culture.
ECONOMIC Zero power costs and 5-7 years of guaranteed life results in a low total cost of ownership.
Developed in USA
Deployed in India
Solution by Thinlabs and Kvaliteta Systems and Solutions 87
Education
88
Education
Key trends
Education sector
Creating markets for sustainability
Nudging consumers
Teaching sustainable values to youth
Crowdsourcing sustainability visions
Aiding green entrepreneurship
89
Education
90
Education
Community Light Centers
Community Light Centers provide solarpowered lighting as an enabler of social and economic development in areas lacking reliable electricity in developing countries.
Philips’ Community Light Centers are areas dedicated to making a social and economic impact by enabling sports, education, rural healthcare, and extended hours of commercial activities. The areas measure 1,000 m2 (the size of a small soccer pitch) and are lit with a new generation of innovative, solar-powered LED lighting systems that provide light to enable life at a communal level after dark. Philips will create more than 100 of the centers across Africa over the next two years. Partnering with the Dutch Football Association (KNVB) to develop the concept further in Africa and South America, the project also has the backing of the UN’s Sustainable Energy for All (SE4ALL) initiative.
Why a Sustainia100 solution? This solution o ers the prospect of sustainable economic and social development at a communal level for parts of the world that su er from energy poverty. It also involves a technology leap to the latest 21st century solutions, with a minimal carbon footprint.
ENVIRONMENTAL According to Philips, more than 90% of the environmental impact of lighting occurs in the usage phase, a phase powered here by sunlight.
SOCIAL Enables development at a communal level of social activities such as sport, education, and healthcare.
ECONOMIC Community Light Centers extend the day for economic activity, increasing employment. Furthermore, they o set the need for big investments in power grids.
Developed in the Netherlands, South Africa, China
Deployed in South Africa, Botswana, Mozambique, Malawi, Tanzania, Kenya, Ethiopia, Nigeria, Ghana, Morocco, Algeria, Egypt
“WE NOW HAVE A REALLY EXCITING OPPORTUNITY TO HELP ENABLE SOCIAL AND ECONOMIC DEVELOPMENT ACROSS EMERGING MARKETS.”
RONALD DE JONG, CHIEF MARKET LEADER AND MEMBER OF THE PHILIPS EXECUTIVE COMMITTEE
Philips Community Light Centers enable social and economic development for communities currently living without electricity.
Solution by Philips 91
Education
Kick-Starting Markets for A ordable Housing
Developing a market for a ordable housing in West Africa, based on ancient construction techniques, this solution provides sustainable homes in rural areas.
Association La Voûte Nubienne’s (AVN) is based on three integrated concepts. The ﬁrst one being a roof: The Nubian Vault is a simpliﬁed, standardized, and proven adaptation of an ancient Egyptian building technique based on vaulted earth roofs, using only locally sourced materials. The second concept is a skill: AVN animates a network of masons who train apprentices for free through apprenticeships on each building site. The third integrated concept is a market: AVN disseminates the techniques by creating autonomous markets in which villagers pay the masons, supporting the trained masons in their determination to become independent entrepreneurs. This integrated concept leads to the emergence of autonomous markets through which, once started, the Nubian Vault technique is di used organically.
Why a Sustainia100 solution? AVN helps avoid unnecessary transportation of materials and improves quality of life in the long term for masons and homeowners. The solution is already spreading throughout Burkina Faso, Mali, and Senegal.
ENVIRONMENTAL Each Nubian Vault house saves trees, avoids transport of imported materials, and saves the equivalent of 2 tons of CO2.
SOCIAL Decent housing is the second priority for people in West Africa, after paid work.
ECONOMIC Each Nubian Vault built generates, on average, $1,000 in local economic impact (salaries of the masons and unskilled workers), according to AVN.
Developed in France
Deployed in Burkina Faso, Mali, Senegal, Benin
“THE NUBIAN VAULT IS A CONSTRUCTION TECHNIQUE URGENTLY NEEDED BY MILLIONS OF AFRICANS AND PROBABLY THE NEXT REVOLUTION IN AFFORDABLE HOUSING.”
THOMAS GRANIER, CO-FOUNDER, DIRECTOR, ASSOCIATION “LA VOÛTE NUBIENNE”
Solution by Association “La Voûte Nubienne” 92
Education
Fixing the World One Device at a Time
iFixit is a free, publicly editable repair manual with a mission to empower people to ﬁx their stu and save money while keeping electronics out of landﬁlls.
Most people want to ﬁx what’s broken; they just lack the resources to do so. iFixit’s specialized tools and free, step-by-step repair manuals minimize the barrier to repair — even for beginners.
ENVIRONMENTAL Electronics are resource-intensive to make and hazardous to dispose of; repair extends the life of electronics.
SOCIAL iFixit’s half-million registered users answer repair questions, contribute repair guides, and support other like-minded ﬁxers.
E-waste is one of the fastest-growing components in the global waste stream. Americans alone throw away over 300 million electronics every year. iFixit writes and hosts repair manuals for everything from computers to cars, so people around the world have the instructions they need to ﬁx what they own, instead of throwing things away.
Why a Sustainia100 solution? Last year, iFixit served 29.5 million people across 106 countries, helping to extend the life of electronic devices and spreading the message of repair, reuse, and responsible consumerism.
ECONOMIC According to iFixit their repair manuals have sparked hundreds of independent repair businesses around the world.
Developed in USA
Deployed in 90+ countries worldwide, including Poland, Germany, USA, Brazil, India, Thailand, Taiwan, Mexico, and Egypt
“E-WASTE IS A PROBLEM WITH GLOBAL RAMIFICATIONS REPAIR IS PART OF THE SOLUTION. IFIXIT FIGHTS FOR A FUTURE WHERE TECHNOLOGY IS A SUSTAINABLE PART OF OUR LIVES.“
KYLE WIENS, CEO, IFIXIT
Solution by iFixit 93
Education
Environmental Experiences for Children
By engaging young children in outdoor exploration and play, this solution helps future generations understand and value the environment while adopting a more active lifestyle.
Project Learning Tree trains teachers to incorporate environmental education into school curricula. Too much time spent inside is contributing to obesity, attention problems, hyperactivity, and lack of appreciation for the earth’s resources. Taking children outside regularly to explore nature increases physical activity and improves performance at school. Developed for children aged 3-6, Project Learning Tree’s Environmental Experiences for Early Childhood guide provides educators, youth group leaders, child care providers, and parents with more than 130 activities to engage children in outdoor exploration and play. The activities integrate art, literature, math, music, and movement. Topics include exploring nature with ﬁve senses and experiencing trees through the seasons.
Why a Sustainia100 solution? Teaching children to understand and value nature is vital to raising the next generation of environmental stewards. Project Learning Tree connects children to nature, develops critical-thinking, and encourages students to take action to improve their environment.
Developed in USA
ENVIRONMENTAL Pupils grow up to become better-informed adult consumers who are conscious about their own lifestyles and practices.1
SOCIAL American children aged 3-12 spend only 1% of their time outdoors. 2
Deployed in USA, Mexico, Japan
1 World Forum Foundation, “Re-connecting the World’s Children to Nature.”
Project Learning Tree helps the youngest of learners interact with nature and the world around them through approaches that are developmentally appropriate – and fun!
2
Ho erth, “Changes in American Children’s Time, 1997-2003.”
Solution by Project Learning Tree 94
Education
Tying Energy Savings to Learning Opportunities
Okehampton College showcases how signiﬁcant reductions in energy use can be realized in an educational institution and translated into saved costs and opportunities for learning.
Through initiatives ranging from curricular activities to adoption of extensive energy monitoring systems, Okehampton College has achieved energy reductions and a reduced environmental footprint. By installing state-of-the-art renewable energy generation systems, much of Okehampton College’s energy consumption is covered by clean sources, and building retroﬁts have been applied as well. But the college hasn’t limited the green campus to technical aspects. It recognizes the human factor by o ering energy monitoring clubs and has integrated energy into the curriculum, linking sustainability to the school’s core activity. The school is also dedicated to disseminating its experiences, and has helped more than 200 other schools adopt similar initiatives.
Why a Sustainia100 solution? The initiative provides an excellent academic grounding for pupils to become sustainably minded, while o ering valuable lessons for scaling to other educational institutions.
ENVIRONMENTAL According to Okehampton College, the initiative has reduced carbon emissions by more than 200 tons annually, and further reductions are expected.
SOCIAL Okehampton College has raised energy awareness and inﬂuenced the attitudes thousands of people – pupils, local businesses, sta , and other stakeholders.
ECONOMIC Realizing reductions in energy spending of 50%, Okehampton College is slashing costs.
Developed in UK
Deployed in UK
By measuring and displaying real-time energy use, it is possible to check that no unusual energy consumption is happening at any time of day or night.
“AS WELL AS PROVIDING AN EXCELLENT ACADEMIC GROUNDING FOR OUR PUPILS, WE PROMOTE THE NEED TO LIVE SUSTAINABLY.”
DARYLL CHAPMAN, PRINCIPAL, OKEHAMPTON COLLEGE
Solution by Okehampton College 95
Education
Cash for Recycling
Rewarding people with cash to recycle is a very practical, highly e ective solution that promotes environmental protection and educates communities.
Asking people to save the environment by recycling is not always enough. But a powerful economic incentive and showing how do to it right can make people take action while learning about recycling of precious resources. Wongpanit’s franchise recycling business solves waste problems at the root cause by changing people’s perception of waste from useless, dirty garbage to valuable resources. Wongpanit provides recyclers with an incentive by buying sorted garbage. The solution makes it possible for entire communities to effectively save the environment as well as support economic activity.
Why a Sustainia100 solution? Wongpanit’s activities increase recycling in communities and the business model educates people about the true value of the resources that are thrown away in the streets, in nature, or taken to landﬁlls. Wongpanit also o ers training to communities on how to start recycling businesses.
ENVIRONMENTAL Recycling results in less consumption of natural resources and energy, with fewer landﬁlls, and a cleaner local environment.
SOCIAL Everyone in communities, whether rich or poor, homeless or jobless, can earn extra income by selling sorted garbage to Wongpanit.
ECONOMIC Wongpanit is helping municipalities in East Asia to reduce funds allocated to waste collection and disposal.
Developed in Thailand Deployed in Thailand, Malaysia
Wongpanit provides a daily buying pricelist for more than 220 items of recyclable waste to attract people, communities, organizations, and manufacturers to sort and sell their waste. Prices are quoted in Thai Baht/kg.
“I BELIEVE THAT WASTE DOES NOT EXIST ON THIS PLANET, MERELY MISPLACED RESOURCES.”
DR. SOMTHAI WONGCHAROEN, PRESIDENT, WONGPANIT
Solution by Wongpanit 96
Education
Linking Sustainability to Commerce
Combining scientiﬁc research and commercial insights helps businesses turn the vision of sustainability into new products.
Businesses increasingly focus on quantifying the return on sustainability. Companies need knowledge in this area and on how to link environmental, social, and governance e orts with market impact and value creation. The Duke Center for Sustainability & Commerce delivers academic-driven research and education programs in the nexus of sustainability and business. As part of Duke’s Nicholas School of the Environment, the center is dedicated to engaging with industry to serve as a catalyst for creating a new generation of knowledge, solutions, and products that can bring sustainability into the marketplace.
Why a Sustainia100 solution? The Duke Center for Sustainability & Commerce helps close the gap between vision and reality by advancing new knowledge to help businesses innovate. It builds new knowledge on multiple levels and educates students, graduates, and executives from around the world to help businesses meet global sustainability challenges.
ENVIRONMENTAL Uncovering data and generating knowledge to quantify and qualify how products and services impact the environment is essential for advancing sustainability.
SOCIAL The center o ers an environment for academics and private businesses to build stronger relations and a common understanding of sustainability challenges.
ECONOMIC Companies can create value through sustainability if coupled with the right knowledge and deep insight into which sustainability issues matter the most for their bottom line.
Developed in USA Deployed in USA, India, South Africa, China, Brazil
“UNIVERSITIES PLAY A CRITICAL ROLE IN DEVELOPING AND DISTRIBUTING TECHNOLOGIES, POLICIES, AND INDUSTRY LEADERS TO ADDRESS SUSTAINABILITY CHALLENGES.”
DR. JAY S. GOLDEN, CENTER DIRECTOR AND ASSOCIATE VICE PROVOST, DUKE UNIVERSITY
Solution by Duke Center for Sustainability & Commerce, Duke University 97
Education
Demonstrating Sustainable Buildings
Green Solution House is a knowledge and conference center for climate technology and sustainability where a liated researchers analyse, develop, and share knowledge on site.
The Green Solution House (GSH), on the Danish island of Bornholm, brings together principles from Cradle to Cradle, Active House, and DGNB-DK in a single demonstration facility, and integrates a personalized monitoring card to inform each guest of their interaction with the building’s energy balance through live climate simulations. By bringing nature inside, the house combines quality of life and sustainability, introducing living green walls with local plants for sun shading and living machines for cleaning wastewater. GSH is designed with a light-optimizing modular façade that produces clean energy and improves the indoor environment. Selected building parts are designed for disassembly and continuous improvement, ensuring that GSH remains a living showroom for the newest green innovations. GSH will be completed in spring 2014.
Why a Sustainia100 solution? The project exampliﬁes the sustainable development of a remote area, where the holistic design approach to energy, water management, biodiversity, indoor air quality, and materials helps push the boundaries for what a green building can be.
ENVIRONMENTAL GSH showcases positive solutions to address energy consumption in buildings, which accounts for up to 40% of global energy demand.
SOCIAL GSH stimulates knowledge sharing, increases local sustainable knowhow, and strengthens the “Bright Green Island” brand of Bornholm.
ECONOMIC Situated on the remote island of Bornholm, Green Solution House will create 100 jobs for craftsmen and some 70-80 jobs in the tourism sector.
Developed in Denmark Deployed in Denmark
“THE GREEN INNOVATIONS DEVELOPED THROUGH THE REALIZATION OF GREEN SOLUTION HOUSE WILL ACTIVELY BE SHARED AS OPEN SOURCE AND CAN BE REPLICATED WORLDWIDE.”
TRINE RICHTER, MANAGING DIRECTOR, GREEN SOLUTION HOUSE
Green Solution House will bring together ﬁrst-movers from the building industry, and showcases how sustainable solutions can enhance architecture.
Solution by Green Solution House, 3xN Architects, VELUX, and Bright Green Island 98
Azuri-technologies Education
In Bornholm 75% of the energy produced comes from renenwable sources. This contributes to the island’s position as a living laboratory for sustainable societies.
TO STAY AHEAD YOU HAVE TO WAKE UP EARLY. BORNHOLM IS THE FIRST PLACE IN DENMARK THAT SEES THE SUNRISE – THIS LEAP AHEAD SYMBOLISES OUR CORE IDEA AND VISION OF BECOMING A 100% GREEN AND SUSTAINABLE SOCIETY BY 2025.
METTE TIENSUU, INTERNATIONAL RELATIONS MANAGER, BRIGHT GREEN ISLAND
THE IDEA BEHIND
Bright Green Island, Bornholm is a 588 km2 living laboratory showing solutions and initiatives that can create a sustainable society today. The island has deployed a long range of solutions that together show how some of the world’s energy and sustainability challenges can be addressed while beneﬁtting the local community. With its holistic approach to sustainability, Green Solution House will contribute further to making Bornholm the go-to-place for inspiration on how to implement sustainability in communities. Technology plays a central role in making Bornholm’s energy supply renewable and more e cient. But Bright Green Island is more than just technology. It is a mind-set anchored with large parts of the island’s population that is dedicated to implementing sustainability in all aspects of life. As such, Bornholm provides unique opportunities for others to learn how solutions and new approaches to sustainability can be implemented and scaled.
www.brightgreenisland.com
99
Education
Crowdsourcing the Future City
Nexthamburg introduces communitydriven crowdsourcing, engaging citizens to create, discuss, and collaborate on common projects and visions for a better urban future.
Nexthamburg is a collaborative, non-proﬁt, citizen-driven think tank for the urban future. Beginning in 2009, over 800 ideas as been created and collected into a citizens’ vision published in 2012. With its community of 7,000 people, Nexthamburg now works on 40 projects ranging from small interventions to big political issues like future mobility or scenarios for the Port of Hamburg. Since 2010, Nexthamburg has partnered with several institutions, including the municipal government, allowing for the transfer of ideas back into governmental processes. Nexthamburg has initiated the transfer of its model to an independent incubator, starting in Belgrade and Bangalore.
Why a Sustainia100 solution? Top-down governmental participation is reaching its limits – especially when addressing sustainability issues that may impact lifestyle such as tra c and consumption. Project backers say Nexthamburg has proven that opening a creative and independent channel for collaboration has led to a new planning culture that increases acceptance, even for critical issues – a model that may lead to more durable solutions in other cities.
ENVIRONMENTAL Nexthamburg addresses sustainability issues in a creative way, aiming to achieve behavior change and to raise awareness of the beneﬁts of sustainable lifestyle.
SOCIAL Nexthamburg has connected a community of citizens who want to change the city positively – enabling them to act like urban developers.
ECONOMIC Over time, Nexthamburg says its process can help to reduce conﬂict costs in planning processes by matching policies and projects to citizens’ ideas and needs.
Developed in Germany
Deployed in Germany, Serbia, India
Solution by Nexthamburg 100
Education
Power-Saving Electricity Monitor
With its simple numbers and colors, Wattson keeps homeowners interested in and aware of the need to save electricity.
Wattson is a handheld electricity monitor that shows energy users how much electricity is being used in the home, using very simple numbers to display money, watts, or carbon. With its unique color system, showing when there is high or low energy use, anyone can see, at a glance, whether there is unusual electricity consumption. The software Holmes also enables users to track usage over time, helping them root out electricity waste. The system can also be used with solar photovoltaic systems, or other onsite generation systems.
Why a Sustainia100 solution? The proliferation of smart phones, tablets, and other electricity-hungry gadgets threatens to overwhelm e ciency gains made elsewhere in buildings. By raising awareness about electricity consumption in the home or at work, energy users are able to make better choices that reduce their carbon footprint and save money at the same time.
ENVIRONMENTAL Buildings account for 40% of global greenhouse gas emissions. If users are made aware of energy waste, they can reduce planet-warming emissions.
SOCIAL By learning good practices at home, energy users can save electricity at school, in the workplace, or wherever they happen to be.
ECONOMIC According to Energeno, a user survey found that households using Wattson cut electricity use by an average of nearly 20%.
Developed in UK
Deployed in UK, France, Germany, Australia, Italy, Spain, the Netherlands, Belgium, Austria, Latvia, Lithuania, Brunei, Singapore, Switzerland, South Africa, Greece
With Wattson, families can learn about their electricity use around the house. The simple colors and numbers raise awareness about good practices.
ABOVE AVERAGE USAGE YOUR AVERAGE USAGE BELOW SVERAGE USAGE EXPORTING ELECTRICITY
â&#x20AC;&#x153;BY MAKING WATTSON AND HOLMES SIMPLE, WE KNOW THAT FAMILIES CHANGE THE WAY THEY USE ELECTRICITY.â&#x20AC;?
MARK ELLIOTT, COO, ENERGENO
Solution by Energeno 101
Energy
Energy
Key trends
Energy sector
New biomass production methods
High-e ciency solar energy
Smart energy systems
Improved LED lighting
The ocean as an energy source
103
Energy
104
Energy
Solar Generation of Heat, Steam, and Electricity
Solar collectors follow the sun, producing electricity, heat, and steam in the same system, which improves the economics of rooftop renewable energy generation.
Absolicon’s concentrating solar collectors follow the sun and concentrate light, which makes them capable of producing electricity, heat, and steam in the same system. The solar collectors help reduce production costs, while simultaneously providing a high degree of energy e ciency in the form of thermal energy, solar electricity, solar cooling, solar heat, and solar steam. This solution improves the economics for utilizing the oftentimes unused renewable energy potential of building rooftops.
Why a Sustainia100 solution? Concentrating solar collectors are ﬂexible and can greatly improve the economics of renewable energy generation, helping to overcome important barriers to a more sustainable energy supply.
ENVIRONMENTAL According to Absolicon Solar, solar concentrators have the potential to replace 100 gigawatts of fossil heat in European industry, reducing CO2 emissions by 40 million tons annually.
SOCIAL The solar concentrators are produced locally, creating jobs, and reducing dependence on imported fuel.
ECONOMIC Replacing natural gas with solar concentrators has only ﬁve years payback time in sunny regions, the company claims.
Developed in Sweden
Deployed in Sweden, Germany, Italy, Greece, Chile, India, Spain
Solution by Absolicon Solar Collector 105
Energy
Intelligent Reduction of Peak Power Consumption
KiWi Power o ers a way to commercialize the demand response market in the United Kingdom and electricity markets around the globe.
KiWi Power reduces peak power consumption by increasing demand side response. Peak power reserves are deployed at times of high demand, typically less than 100 hours annually. This extra strain on the grid is rare but has to be e ectively managed. KiWi Power provides an alternative to polluting and expensive power reserves. The technology targets non-essential power, such as air-conditioning and lighting, and is designed not to compromise operational e ciency or comfort. The result is a demand reduction strategy that reduces customers’ electricity consumption slightly during times of peak demand. In the United Kingdom, KiWi Power’s customers beneﬁt from payments from the National Grid, improved green credentials, and better energy intelligence.
Why a Sustainia100 solution? The entire community beneﬁts from cheaper and greener energy added to the electrical grid. Power reserves typically come from diesel-ﬁred generators and other high-emission technologies. The requirement to maintain “spinning” reserves in the form of standby generation plants is a costly and environmentally damaging balancing method. Demand response can reduce these negative impacts.
ENVIRONMENTAL Power reserves typically come from highly polluting diesel-ﬁred generators. A demand response strategy can reduce the need for such assets.
SOCIAL The entire community beneﬁts when cheap and green electricity is fed to the grid.
ECONOMIC Unlike traditional energy-e ciency products, which come with an upfront cost and varying payback times, KiWi Power o ers businesses a new, recurring revenue stream, and shrinks their carbon footprint.
Developed in UK
Deployed in UK, Israel
KiWi Power’s demand reduction strategy extracts electricity savings from non-essential equipment such as air-conditioning and lighting to reduce the use of peaking power stations.
Solution by KiWi Power 106
Energy
Thermal Storage for Smart and Green Heating
This district heating network with thermal storage responds to peak consumption, limits fossil fuel consumption, and maximizes use of renewable energies.
The need for heating varies over the course of a day, depending on the available sunlight and outdoor temperatures. In a multi-fuels district heating network , there are some periods with no particular need for the energy produced from biomass. At other times, additional conventional boilers have to be enlisted. Borås energi och miljö, the public company that owns the district heating network in Borås, Sweden, has deployed a storage cell – a gigantic, 37,000-m3 reservoir – to uncouple supply from demand and increase energy e ciency. The heating system is optimized by storing the produced energy as hot water during low usage periods. When demand for heat peaks, the hot water is then sent to the district heating network.
Why a Sustainia100 solution? This solution has a tremendous scalability potential since there are thousands of heating networks globally to which it can be applied. Depending on storage capacity, the energy reserve can supply heating networks anywhere from a few hours to a few days, helping to reduce greenhouse gas emissions signiﬁcantly.
ENVIRONMENTAL This solution reduces fossil fuel dependency and slashes greenhouse gas emissions by about 5,500 metric tons annually.
SOCIAL Thermal storage reduces local air pollution and improves urban air quality.
ECONOMIC Integrating thermal storage into district heating o sets the need to build new heating plants to supply peak consumption.
A gigantic, 37,000 m3 reservoir stores hot water when production exceeds heating demand and releases energy when demand exceeds production.
Developed in Sweden
Deployed in Sweden, France
Solution by Veolia Environment, Dalkia, and Borås Energi och Miljö 107
Energy
Generating Light from the Force of Gravity
GravityLight uses the force of gravity to create sustainable energy that makes light available to people living in o -grid areas.
By using gravity to power an LED lamp, this solution helps to improve access to light in o -grid areas. It takes 3 seconds to lift the weight that powers GravityLight, which will provide up to 30 minutes of light as the weight drops under the force of gravity. The mass weight is a bag that the user ďŹ lls with 9-12.5 kg of material (dirt, rocks, or sand) which connects to the unit via a plastic strap. A series of gears inside the device translates this mass into energy as a strap passes through the generating mechanism.
Why a Sustainia100 solution? GravityLight has no reliance on the external environment, and because there are no operating costs after the initial low-cost purchase, it has the potential to lift people out of light poverty while reducing dependence on expensive and polluting fossil fuels.
ENVIRONMENTAL GravityLight eliminates the need for kerosene lighting solutions, resulting in less indoor air pollution.
SOCIAL Access to reliable and a ordable light for the worldâ&#x20AC;&#x2122;s o -grid population has a positive impact on health and opportunities for income-generating activities.
ECONOMIC The absence of operating costs after an a ordable initial purchase generates steady and continuous savings for the customer.
Developed in UK Deployed in Sri Lanka
Using an original yet simple approach, GravityLight aims to eliminate lighting poverty in o -grid areas.
Solution by Therefore and Deciwatt 108
Energy
GRAVITYLIGHT SEEKS TO EMPOWER INDIVIDUALS BY MEETING THEIR BASIC NEEDS, AT THE LOWEST COST POSSIBLE, WITH ZERO OVERHEAD.
JIM REEVES, DESIGN ENGINEER AND ASSOCIATE DIRECTOR AT THEREFORE
THE IDEA BEHIND
About 1.5 billion people worldwide live without reliable access to electricity. These people rely instead on biomass and fossil fuels to meet their entire energy demand, including indoor lighting. Deciwatt is working to connect the world’s unconnected populations by o ering low-power electronics together with o -grid energy generation. Gravity Light is their second project - which is currently at a prototyping stage and has been able to secure funding via Indiegogo. Deciwatt also envisages other projects to allow the same o -grid populations to access the world’s knowledge via the internet, peer-to-peer communication, and education. Deciwatt is working to make this possible by applying well-known electronics and building momentum from the ground up.
www.deciwatt.org
109
Energy
Capturing Carbon for Reuse as Fuel
LanzaTech captures and reuses carbon, transforming waste and residues into resources through a unique gas fermentation technology.
LanzaTech has developed a biological process in which microbes convert carbon monoxide containing gases produced by industries such as steel manufacturing, oil reﬁning, and chemical production, as well as gases generated by gasiﬁcation of forestry and agricultural residues, municipal waste, and coal, into fuel and chemical products. The solution mitigates carbon emissions from industry and produces low-carbon fuels without adversely impacting food production. LanzaTech’s process has successfully operated at demonstration scale and is now entering commercialization.
Why a Sustainia100 solution? LanzaTech was created with a vision of meeting the increasing global demand for affordable, low-carbon fuels and sustainably produced chemicals. Universal access to sustainable energy will catalyze the Third Industrial Revolution.
ENVIRONMENTAL Life-cycle analysis by Tsinghua University and Michigan Technological University has shown a 60% reduction in carbon footprint of ethanol produced from steel mill waste gases compared to conventional petroleum-based gasoline.
ECONOMIC 65% of steel mills worldwide use technology that could be retroﬁtted to use the LanzaTech process, which translates to 30 billion gallons of ethanol. At today’s price for ethanol, $2.37 per gallon, LanzaTech represents a $71-billion opportunity.
Developed in USA, China, New Zealand
Deployed in New Zealand, China, USA, India, Europe
In Shanghai, China’s largest steel conglomerate, Baosteel, and the Chinese Academy of Sciences have constructed a plant using LanzaTech’s gas fermentation technology for the production of fuel ethanol from steel mill o -gases.
Solution by LanzaTech 110
Energy
Using the Ocean to Power Tropical Islands
The Curaçao Ocean Ecopark is developing an ocean thermal power plant and combining it with natural cooling of buildings by using deep ocean water.
Dutch Bluerise BV is developing its ﬁrst ocean thermal energy conversion (OTEC) plant, allowing the tropical island of Curaçao, located in the southern Caribbean Sea, to use the ocean as a power plant. The technology generates electricity by exchanging heat between the warm surface and the cool depths of the ocean. In addition, the Curaçao Ocean Ecopark will use deep ocean water to cool buildings in the local airport with savings of up to 90% of the electricity typically required for air-conditioning, according to Bluerise. The Ocean Ecopark will integrate a range of sustainable solutions, ranging from fresh water production to ocean-cooled greenhouses and ﬁsh farming.
Why a Sustainia100 solution? Tropical regions will account for a large share of global increases in energy demand. Providing a sustainable, scalable, and economical energy solution for these regions will address a major sustainability issue while serving as an incubator for OTEC technology.
ENVIRONMENTAL The technology has the largest recoverable potential at the lowest projected cost of all renewable ocean conversion technologies 1 .
SOCIAL The Ocean Ecopark provides opportunities for attracting new industries and research, beneﬁtting the population on Curaçao.
ECONOMIC On the island of Curaçao, energy-related imports currently amount to more than $5,000 per household per year.
Developed in the Netherlands
Deployed in Curacao
“THE DEEP OCEAN PROVIDES A NEW SOURCE OF WEALTH, ONE THAT IS SUSTAINABLE AND CAN PROVIDE NOT ONLY ENERGY BUT ALSO FRESH WATER AND FOOD FOR AN INCREASING DEMAND IN TROPICAL REGIONS.”
REMI BLOKKER, CEO, BLUERISE
By clustering economically viable and mature technologies, Bluerise aims to incubate and commercialize scalable energy, food, and water solutions.
International Institute for Applied Systems Analysis, “2012 Global Energy Assessment Report.”
1
Solution by Bluerise BV and Curaçao Airport Holding 111
Energy
EVs as an Electric Power Supply
“LEAF to Home” is a backup power supply system that can transmit the electricity stored in the batteries of Nissan LEAFs to a residential home.
The “LEAF to Home” power supply system can supply electricity from Nissan LEAF electric vehicle onboard batteries to a home when used with the “EV Power Station” unit developed by Nichicon. Electricity is delivered from the LEAF’s battery pack via a rapid charging connector and Power Control System connected to the home’s distribution board. The system has enough output to allow all household electronics to function at once, even during morning and evening consumption peaks. The LEAF’s lithium-ion batteries can store up to 24kWh of electricity, su cient to supply an average Japanese household for about two days.
Why a Sustainia100 solution? In Japan, the tsunami and Fukushima disaster has increased demand for renewable energy and distributed storage solutions. Private homeowners have come to recognize the need for ﬂexibility, and the government is taking steps to encourage adaptation of new technologies that will allow households to power themselves at times when demand is at the peak or during power outages.
ENVIRONMENTAL The ability of EV batteries to store and dispatch electricity as needed provides ﬂexibility to the grid and reduces the need for dirty fossil fuel-ﬁred peaker power plants.
SOCIAL EVs connected to a LEAF to Home unit could provide electricity to neighbors without power during outages.
ECONOMIC The EV Power Station encourages homeowners to charge EVs at night, when demand is low and electricity is cheaper.
Developed in Japan
Deployed in Japan
Solution by Nissan and Nichicon 112
Energy
Making Every Light Intelligent
Digital Lumens’ intelligent LED lighting systems provide wireless controls and performance metrics to achieve savings of up to 90% on lighting costs.
With intelligence capabilities at the ﬁxture and system levels, Digital Lumens’ intelligent LED lighting systems deliver concrete energy savings and ﬂexibility that makes the value proposition of LED adoption more tangible to companies. Each system is wirelessly integrated with Light Rules technology, which helps maximize lighting energy e ciency by managing and ﬁne-tuning settings to match business needs and provides detailed key performance metrics reports to act upon. The company’s vision of an intelligent and connected future is backed by a strategic partner program that brings the proven advantages of integrated intelligence to the full range of commercial and industrial lighting applications. Digital Lumens claims that this initiative will take the cost of controls from dollars to pennies on a per square foot basis.
Why a Sustainia100 solution? According to the U.S. Department of Energy, lighting uses 29% of U.S. electricity, with 58% in the commercial and industrial sector alone. Digital Lumens makes energy efﬁciency improvements measurable by o ering valuable insight into lighting-related costs, while also providing organizations with the tools needed to make a change towards greater energy e ciency.
ENVIRONMENTAL Digital Lumens accelerates energy e ciency in commercial and industrial buildings by driving LED adoption.
SOCIAL Increased lighting control in commercial buildings makes for a better working atmosphere and higher productivity.
ECONOMIC Digital Lumens claims to save large-scale customers up to 90% on lighting-related costs, realizing more than $25 million annually for its customers.
Developed in USA Deployed in USA, Canada, UK
“OUR VISION HAS ALWAYS BEEN TO MAKE EVERY LIGHT INTELLIGENT, WHICH DRIVES RADICAL ENERGY EFFICIENCY AND BUILDS A PLATFORM FOR DISTRIBUTED BUILDING INTELLIGENCE.”
BRIAN CHEMEL, FOUNDER AND CTO, DIGITAL LUMENS
Intelligent LED lighting systems deliver energy savings, ﬂexibility, and unique value to commercial and industrial customers.
Solution by Digital Lumens 113
Energy
“Energy Forests” in Former Coal Mines
European GreenWood Company is developing an “Energy Forest,” a sustainably harvested source of biomass for European combined heat and power (CHP) plants, on previously disturbed land in the Czech Republic.
The objective is to produce a CO2-neutral energy feedstock in the form of biomass (wood pellets). Production will occur in a sustainable, closed-loop environment. The customers are to be Europe’s CHP plants. The European GreenWood Company plans to establish a 15,000-hectare poplar Energy Forest at the site of a deteriorated former coal mine in the northern Czech Republic. The Energy Forest is planted in circulating ﬁelds to maintain annual harvests over a ﬁve-year cycle. Annual production is estimated to be 225,000 tons of wood pellets. Under the closed production model, the European GreenWood Company maintains full ownership of all stages in the value chain (raw materials, production, supply, and distribution).
Why a Sustainia100 solution? Production facilities for the Energy Forrest are powered by renewable wind and biomass electricity and use proven technologies while reusing existing coal-mining infrastructure.
ENVIRONMENTAL The Energy Forest replaces coal mining with reforestation and CO2-neutral clean energy production.
SOCIAL The Energy Forest will include recreational pockets, which will be open for use by locals. The project does not use foodproducing agriculture land.
ECONOMIC The project will provide jobs for approximately 100 inhabits in an economically depressed region. Production is expected to commence in early 2014.
Developed in Denmark
The “Energy Forest” is a manifestation of the transition from carbon to sustaniable energy.
Deployed in Czech Republic, Italy, Denmark
Solution by European GreenWood Company 114
Energy
Waste to Energy without Combustion
O2E Technology’s waste conversion technology is an innovative approach to recycle organic waste to create new products such as fuels, chemicals, electricity, and local food.
O2E Technologies uses a patented catalytic depolymerisation process to convert organic wastes (including biomass, plastic, and rubber) into high-caloric fuels for energy production, and into compost and fertilizers that that can be used for local food production. According to the company, the self-contained process can convert municipal solid waste and any organic waste streams quickly into chemical derivatives (diesel, oil, benzene, kerosene), fertilizer, or directly into electricity and heat.
Why a Sustainia100 solution? O2E Technologies’ waste-to-energy technology can process waste without need for landﬁlls, dumpsites, or incineration – thus avoiding greenhouse gas emissions from storage or combustion of waste material. The company’s waste conversion units are modular and scalable.
ENVIRONMENTAL According to O2E Technologies, pollutants such as chlorine, sulfur, mercury, chromium, and other heavy metals are removed from feedstocks and neutralized in its waste conversion units.
SOCIAL Organic household waste and industrial plastic and packaging waste can be converted locally for new high-energy fuels, chemicals, and compost and fertilizer to boost food production.
ECONOMIC O2E Technologies’ waste-to-energy technology is in operation in Germany, where it is successfully transforming waste to valuable resources.
Fertilizers and compost are some of the byproducts from the patented depolymerisation process.
Developed in Germany, UK, Austria, Spain
Deployed in Germany, Spain
Solution by O2E Technologies 115
Health
116
Health
Key trends
Health sector
IT as a health enabler
Instruments for sanitation and disinfection
Safe and e cient cook stoves
Innovative water puriďŹ cation
Africans beneďŹ tting from mobile phones
117
Health
Solar Water Puriﬁcation and Distillation
F Cubed’s solar energy technology puriﬁes, desalinates, and distils any water source by mimicking the natural water cycle, with minimal ongoing costs.
ENVIRONMENTAL Three hundred million families purify water via boiling daily. Replacing boiling with F Cubed’s solution means a reduction of 1-2 tons of CO2 per family/year.
SOCIAL estimates that 23 billion productive days are lost annually through illness and disease caused by contaminated water sources.
F Cubed aims to be a solution to the world’s clean water issues using only natural renewable solar energy to produce puriﬁed water from any contaminated feed water source. The technology is biomimicking the natural water cycle of evaporation and condensation to produce pure distilled water. In addition, it produces a second water supply of UV disinfected, heated, and ﬁltered water, precipitating inorganic compounds and leaving no waste. Each panel has a 20-year operating life and treats an average of 20 liters per m2/day of water, exceeding WHO drinking water standards, with zero carbon footprint.
Why a Sustainia100 solution? Contaminated drinking water causes over 3.4 million deaths per year, huge health costs, and loss of productivity. The F Cubed solution puriﬁes water; eliminates the need for boiling; is low-cost, modular, and robust; and provides a positive global environmental impact while improving the quality of life for millions of people.
ECONOMIC According to F Cubed, universal access to improved water sources by 2015 would result in an annual economic beneﬁt of $344 billion.
Developed in Australia Deployed in 36 countries, including Australia, China, Fiji, Sri Lanka, Botswana, Peru and USA.
1
Thomas Clasen, “Estimating the Scope of Household Water Treatment in Lowand Medium-Income Countries.”
2 WHO, “Safer Water, Better Health: Costs, Beneﬁts, and Sustainability of Interventions to Protect and Promote Health.”
Solution by F Cubed 118
Azuri-technologies Health
Before the F Cubed water puriﬁcation solution in Maddhyabil Village, people needed to travel two hours to collect safe drinking water after the 2009 cyclone Aila destroyed all water facilities in the village.
SOLAR, NOT CARBON, IS THE SOLUTION TO WATER PURIFICATION. OUR GOAL IS TO PROVIDE CLEAN DRINKING WATER TO THE UNDER SERVED, ELIMINATE WATER BORNE DISEASES AND DRAMATICALLY REDUCE CARBON EMISSIONS.
PETER JOHNSTONE, FOUNDER AND CEO, F CUBED
THE IDEA BEHIND
F Cubed creates cost-e ective, state-of-the-art solar stills that use sustainable, renewable solar energy for water treatment. The panel’s simplistic, modular and robust design is targeted at developing countries with the most remote and isolated regions, and allows for fast and easy installation with no tools or prior training. F Cubed water panels can process some of the most contaminated waters to produce pure, clean drinking water and a secondary stream of UV-disinfected, ﬁltered hot water for cleaning. F Cubed’s system is not limited to just the domestic market, it can also be applied to the treatment of industrial wastewater for meeting safe-discharge standards and to create a new industry of sustainable salt-harvesting by recapturing the ﬂow-through water for further processing. This enables a Zero Liquid Discharge System with smaller environmental footprints.
www.fcubed.com.au
Solution by F Cubed 119
Photo courtesy of WaterAid Bangladesh
Health
Mobile Management of Life-Saving Medicine
Using mobile and electronic mapping technologies, SMS for Life is eliminating drug stock-outs and improving access to health care.
Maintaining adequate supplies of medicine is challenging in remote areas. SMS for Life eliminates the risk of people reaching a health care facility and ﬁnding it’s out of stock of essential medicines by sending weekly stock request messages to the mobile phones of registered health facility workers. They then send information back for free by SMS. District o cers use the messages to decide on orders and redistribution of medicines between sites. This eliminates stock-outs, increases access to health care, and reduces deaths. In Tanzania, the partnership has focused on anti-malarial stocks, which are critical because medication must be taken within 18-24 hours of the onset of symptoms to be fully e ective.
Why a Sustainia100 solution? Poor tracking of drug supplies leads to unnecessary deaths from preventable and curable diseases like malaria. SMS for Life is impacting the lives of Tanzanians by protecting the population from the risk of reaching a health care facility that has run out of stock of vital anti-malarial drugs. The system has reached over 5,000 health care facilities in Tanzania, and is now being rolled out in other African countries.
ENVIRONMENTAL Poor forecasting results in an unnecessary burden being placed on the environment in terms of transportation and production of emergency orders.
SOCIAL SMS for Life helps ensure that patients have timely access to pharmaceuticals when they need it, thus saving lives.
ECONOMIC The economic impact of malaria is estimated to cost Africa $12 billion a year.1
Developed in Tanzania Deployed in Tanzania, Cameroon, Ghana, Kenya, Democratic Republic of the Congo
SMS for Life harnesses the power of mobile and electronic mapping technologies to create a scalable and sustainable solution to the problem of drug stock-outs.
“TRANSFORMING SOCIETIES IS ABOUT WORKING COLLABORATIVELY TO PROVIDE SIMPLE, COST EFFECTIVE, AND SCALABLE SOLUTIONS THAT BRING ABOUT LONG-TERM CHANGE.”
JIM BARRINGTON, DIRECTOR, SMS FOR LIFE
1
Greenwood, Bojang, Whitty, and Geo rey, “Malaria.”
Solution by Novartis and partners 120
Health
Self-Cleaning, Solar-Powered Toilet
Researchers from Caltech have developed a solar-powered, self-cleaning toilet able to convert human waste into hydrogen and fertilizer.
Caltech’s toilet system uses the sun to power an electrochemical reactor. The reactor breaks down water and human waste into fertilizer and hydrogen, which can be stored in hydrogen fuel cells as energy. The treated water can then be reused to ﬂush the toilet or for irrigation. The system can function o -grid and without any subsurface infrastructure. The creators aim for a price of $1,000 per unit, which may be a barrier to extensive scaling. A new prototype will be available in July 2013, and is planned to be deployed in India by early 2014 for further testing.
Why a Sustainia100 solution? 2.6 billion people do not have access to safe and a ordable toilet facilities. Providing stand-alone sanitation facilities for developing countries and remote areas can eliminate the contamination of ground water, soil, and ecosystems caused by inappropriate human waste disposal, and thus improve human health and reduce child deaths.
ENVIRONMENTAL Flush toilets require 10 times more water than our daily drinking water requirement.
SOCIAL 1.5 million children under the age of ﬁve die each year because of sanitation problems, according to the WHO.
ECONOMIC Caltech’s toilet system does not need expensive sewer systems or water supply infrastructure.
Developed in USA
Deployed in USA, India, Peru, China, Thailand, Kenya
Solution by Caltech and Bill & Melinda Gates Foundation 121
Health
Cancer Prevention and Telemedicine Treatment
Through the creative use of existing social infrastructure and telemedicine, CIDRZ has developed a cervical cancer prevention solution for sub-Saharan Africa.
Electronic Cervical Cancer Control (eC3) is a low-cost, high-impact approach to cervical cancer prevention developed in Zambia. The program uses traditional marriage counselors to raise awareness in the target community about cervical cancer. Nurses then screen, diagnose, and treat pre-cancer and cancer patients. Telemedicine is used for immediate remote consultation and peer-review, with digital photography used as a diagnostic tool.
SOCIAL The program reduces the psychological and social consequences associated with cancer, such as anxiety, fear of death, job and school absences, and inadequate childcare.
Using eC3 as its operational matrix, the program has opened 25 clinics across Zambia, screened over 100,000 women, and treated 20,000 pre-cancers or cancers since its inception in 2006. The program is integrated into the public health system, and is expanding nationally. Over 225 healthcare professionals from 12 African nations have received onsite training in how to deploy eC3 in their countries.
Why a Sustainia100 solution? Cervical cancer kills 250,000 women each year, with the vast majority living in developing nations. In sub-Saharan Africa, it is the number one cause of cancer-related death, largely due to a lack of physicians, under-capacitated laboratories, and underdeveloped health care systems.
ECONOMIC Keeping women healthy is crucial to economic stability in sub-Saharan Africa, where women have the primary responsibility for maintaining the household and food production.
Developed in Zambia Deployed in Zambia, Cameroon, Tanzania, Nigeria, South Africa, Botswana, Zimbabwe
Solution by Centre for Infectious Disease Research in Zambia (CIDRZ) 122
Azuri-technologies Health
THE CIDRZ CERVICAL CANCER PREVENTION PROGRAM IN ZAMBIA IS A SCALABLE MATRIX OF MODERN TELECOMMUNICATIONS TECHNOLOGY, TASK SHIFTING AND COMMUNITY MOBILIZATION THAT SAVES LIVES.
DR. CHARLES HOLMES, CEO, CIDRZ
THE IDEA BEHIND
The Centre for Infectious Disease Research (CIDRZ) is a Zambian NGO that started in 2001 to help increase the health of Zambians. Besides programs for the prevention of cervical cancer and breast cancer control, the centre also works with the treatment and care of people infected with HIV and tuberculosis. CIDRZ collaborates with the Zambian government to strengthen primary healthcare systems. The centre also conducts research into healthcare practice and training for the beneďŹ t of local communities.
www.cidrz.org
123
Health
Slashing Diesel Engine Particle Emissions
Achieving almost zero particle emissions from heavy-duty diesel engines, Dinex has developed an exhaust system that signiﬁcantly reduces air pollution-related diseases.
Dinex’ development of modern exhaust systems includes a range of di erent emission-control technologies manifested in the Combined Diesel Particulate ﬁlter and SCR catalyst. The system facilitates close to zero particle emissions from heavy-duty diesel engines. This includes harmful gasses such as nitrogen oxides, uncombusted hydrocarbons, carbon monoxide, and particulates. Removing these gases will improve local air quality and reduce air pollution-related diseases. Dinex’ aims to replace the conventional exhaust system with a “chemical factory” capable of saving CO2 while ensuring cost-effectiveness and not compromising fuel economy.
Why a Sustainia100 solution? Particulates and gases polluting the air is an increasing challenge in many large, heavily tra cked cities. This solution enables a signiﬁcant reduction in harmful and polluting gases, as well as an almost 100% elimination of particulates. Emissions reductions from diesel engines contribute to a healthier local environment for urban dwellers and people living near transportation corridors.
ENVIRONMENTAL Dinex’ exhaust system delivers reductions in particulate and black carbon emissions from diesel engines.
SOCIAL Reduced pollution from diesel engines will improve local air quality, reduce air pollution-related diseases, and improve quality of life in urban areas.
ECONOMIC According to the company, the health beneﬁts of the exhaust system are proven to be economical in the reduction of premature deaths and health costs connected to poor air quality.
Developed in Denmark
Deployed in Europe, North America, Russia, China
Solution by Dinex Group 124
Health
Empowering Healthier Food Choices
Combining smartphones with nutritional knowhow, the FoodSwitch app provides shoppers with insight into the nutritional content of packaged foods.
FoodSwitch is a smartphone app that employs barcode scanning and a large food composition database. Shoppers download the app and use their phone camera to acquire the product barcode, which is matched to a food in the database. A tra c light label consisting of red, yellow, and green colors indicates levels of fat, saturated fat, sugar, and salt in the selected product. Concurrently, the app searches a database of 40,000 products for similar but healthier replacements and suggests speciﬁc alternative brands to buy instead. FoodSwitch uses crowdsourcing to provide researchers with information on and a photograph of products not present in the app and is thus continuously expanding its database.
Why a Sustainia100 solution? FoodSwitch is an accessible and easy-to-use app that provides insight into the nutritional content of packaged foods. The immediate point-of-sale advice helps consumers to make healthier and more sustainable food choices.
ENVIRONMENTAL The crowdsourced data provides researchers with the information required to drive global food manufacturers towards more environmentally friendly products.
SOCIAL Poor diets contribute to the global epidemics of obesity, high blood pressure, and diabetes, impacting the lives of billions of people around the world.
ECONOMIC FoodSwitch is a low-cost, scalable solution that empowers consumers’ and researchers’ e orts to reduce the billions of dollars of health care costs attributed to poor diets.
Developed in Australia Deployed in Australia
Coloured tra c light labels give at-a-glance nutritional information With speciﬁc recommendations for alternative products - making smarter shopping easy for consumers.
“IT STARTED AS A TOOL TO INFORM CONSUMERS ABOUT HOW TO SHOP HEALTHIER. IT’S TURNED INTO A TOOL THAT INFORMS US ABOUT WHAT THE FOOD INDUSTRY IS UP TO.”
BRUCE NEAL, PROFESSOR OF MEDICINE AND INVENTOR OF FOODSWITCH
Solution by The George Institute for Global Health, Xyris Software, and Bupa 125
Health
Audio-Instructed Infection Prevention
This talking device simpliﬁes the process used to sterilize medical instruments, making the techniques more accessible, which prevents infections and saves lives.
By adding audio instructions to an autoclave, a proven medical instrument sterilizer, OttoClave makes this essential device more accessible for use in resource-constrained areas. A sterilization monitor talks to users in their native language, providing users with directions on how to clean reusable medical instruments and conﬁrms when sterilization has been successful.
ENVIRONMENTAL OttoClave takes advantage of existing manufacturing capacity and distribution networks to minimize waste.
This solution makes regular sterilization simpler and more convenient. The monitor connects to a pressure cooker, which cleans instruments up to the standards required by the U.S. Centers for Disease Control and Prevention. Solar collectors can also power the device, making it a truly o -grid solution. The technology is currently undergoing rigorous testing in the Kavre district of Nepal, in preparation for rapid deployment across Nepal and India.
Why a Sustainia100 solution? Dirty surgical instruments cause up to 1 in 3 patients to become infected in resourceconstrained areas after undergoing simple procedures. In these areas, basic infection control measures such as using autoclaves have the potential to save millions of lives and lead to major cost savings for health care systems.
SOCIAL Dirty medical instruments cause infections that can kill patients. A simple sterilization system can improve the status quo immediately.
ECONOMIC Better infection control will lead to major cost savings to health care systems globally.1
Users select how instruments will be sterilized; the monitor guides them to make sterilization as easy as possible.
Developed in USA, Nepal
Deployed in Nepal
1 Pittet, Allegranzi, Storr, ”Infection Control as a Major World Health Organization Priority for Developing Countries.”
Solution by OttoClave 126
Health
High-E ciency Cook Stove
Greenway Grameen Infra has developed an e cient biomass cook stove that delivers clean combustion without any moving parts.
The Greenway Smart Stove is a user co-created biomass stove that delivers 65% fuel savings and 70% smoke reduction and works with any solid biomass fuel.1 Over 3 billion people worldwide, including 68% of India’s population, still cook daily meals on unhealthy, ine cient traditional mud stoves or indoor open ﬁres. This stove employs a patent-pending air-ﬂow generator that ensures clean combustion without any moving or motorized parts. The unit retails for $23. Usage of the stove prevents the release of 1.8 tons of greenhouse gas emissions annually, while reducing household air pollution levels to those deemed safe by the WHO.
Why a Sustainia100 solution? Families burning biomass do not have access to modern fuels such as petroleum gas or electricity due to lack of infrastructure and the cost. This solution makes use of locally available biomass, burning it cleaner and healthier.
ENVIRONMENTAL According to the company, a Greenway Smart Stove mitigates 1.8 tons of GHG emissions annually.
SOCIAL Emissions from traditional cook stoves are responsible for 4 million premature deaths annually, according to the Global Alliance for Clean Cookstoves.
ECONOMIC The Greenway Smart Stove uses 65% less fuel than traditional mud stoves, leading to reduced fuel costs and need for fuel gathering.
Developed in India Deployed in India, Bangladesh
The Greenway Smart Stove delivers 65% fuel savings and 70% smoke reduction as compared to traditional mud stoves.
“DESIGN FOR SUSTAINABILITY SHOULD BE DRIVEN BY ACTUAL USERS.”
ANKIT MATHUR, CTO, GREENWAY GRAMEEN INFRA
Test report by the Indian National Biomass Cookstoves Initiative.
1
Solution by Greenway Grameen Infra 127
Health
Innovating Eye Surgery
Aravind Eye Care is innovating health care by employing production and service principles from other industries to increase access to eye surgery in India.
Since 1976, Aravind has been able to attain a position as a highvolume and high-quality institute providing eye care for thousands of people annually. Aravindâ&#x20AC;&#x2122;s surgeons conduct 2,000 operations a year, on average. By comparison, U.S. surgeons only conduct 125 per year. The high number of surgeries does not mean more mistakes, or a compromise on quality, and makes state-of-the-art eye surgery accessible to the masses. Building on an innovative business model that pushes for ever higher e ciency and greater outreach to disadvantaged patients, Aravind has become a network of multiple hospitals across India, and 300 clinics in India and beyond are using the Aravind model.
Why a Sustainia100 solution? With its ultra-e cient, high-quality system of clinics and integrated training programs, Aravind is expanding no-fee surgery to the masses, curing unnecessary blindness. Patients only pay if they want to, and the majority pays only a symbolic amount or nothing at all. These surgeries are then funded by fees from paying patients.
SOCIAL Aravind makes surgery available to disadvantaged people in rural India who may not even know they have options to regain their vision.
ECONOMIC Aravind is able to do more than double the amount of eye surgeries compared to the UK National Health System, at one onethousandth of the cost.1
Developed in India Deployed in India
1
Tina Rosenberg, â&#x20AC;&#x153;A Hospital Network With a Vision.â&#x20AC;?
Solution by Aravind Eye Care System 128
Photo: Reuters/Landov
Health
Online Hospital Treatment
MediAngels is an innovative global eHospital aiming to remove geographical barriers between health care consumers and medical specialists from around the world.
ENVIRONMENTAL Global eHospital reduces the need for transportation and o ce space.
Health care is human capital intensive, as the best doctor for a particular disease may not be within traveling distance. At MediAngels, you potentially have every doctor available regardless of physical location. MediAngels makes it possible to consult a specialist not available locally for any ailment, at any given time, directly from home. MediAngels also has an extensive plan for philanthropy, planning to make free consultations available in remote areas of China, India, and sub-Saharan Africa.
Why a Sustainia100 solution? Delivering quality health care at the click of a mouse, MediAngels transcends barriers of distance, cost, and time zones, and enables consultations with specialists when convenient, which also cuts transportation costs and emissions. It is important to stress that MediAngels currently is only meant to complement, not replace, the physical interaction between physicians and patients.
SOCIAL Being able to get medical consultations from home eliminates queuing, shuttling between di erent hospital sections, appointment hassles, and traveling stress.
ECONOMIC Global eHospital cuts transportation costs, and a typical query can cost as little as $10, according to MediAngels.
Developed in India
Deployed in India, China, and sub-Saharan Africa
Solution by MediAngels 129
Cities
Cool water inďŹ&#x201A;ow
Waste h incinera to chill w
130
Cities
Key trends
Cities sector
Involvement through open source software
Partnerships between public, private, and volunteer organizations
heat from waste ation plant used water
Adapting concepts to local city context
Retroﬁtting while respecting cultural heritage
Water building community outlet
Saving resources and through sharing
Supply temp. 6°C Return temp. 16°C
131
Cities
Climate Resilient Neighborhood
The City of Copenhagen wants to create a green climate resilient neighborhood in the city’s Østerbro district.
In the Klimakvarter (climate neighborhood), located in Copenhagen’s Østerbro district, planners want to prepare the city for heavy rains with green solutions at street level. The improvements create lush, green urban spaces while leading water from cloudbursts away from inhabited buildings to areas where it causes no damage. The solutions are being developed in cooperation with local residents and target both public (streets) and private areas (inner courtyards).
Why a Sustainia100 solution? Researchers expect that climate change will bring more heavy rains and cloudbursts to Copenhagen’s densely built city center, where the sewer system is ill-equipped to handle the increased rainfall. Expanding the sewer system would be expensive, and would require digging up large parts of the city for decades, disturbing tra c and disrupting city life.
ENVIRONMENTAL Climate adaptation solutions improve urban biodiversity, reduce CO2 emissions, and reduce the urban heat island e ect in the city.
SOCIAL Access to green areas increases public health and provides new spaces for social interaction.
ECONOMIC Green and surface-based climate adaptation provides a double beneﬁt (reducing the cost of damage from cloudbursts, increasing liveability) and is cheaper than expanding sewers.
Developed in Copenhagen, Denmark Deployed in Denmark
Large areas of asphalt will be transformed into green areas, trees and rain-gardens. By optimizing the streets, a green, thriving urban space can be created while still leaving room for cars, cyclists and pedestrians.
Solution by Klimakvarter and the City of Copenhagen 132
Cities
Klimakvarter will transform Østerbro to the greenest urban district in Copenhagen and the ﬁrst climate adapted city area in Denmark.
Photo courtesy of TREDJE NATUR
IN THE FUTURE WE WILL GET MORE RAIN, HIGHER SEA LEVELS AND WARMER WEATHER. KLIMAKVARTER IS ADAPTING TO CLIMATE CHANGE BY USING BLUE AND GREEN ELEMENTS IN THE URBAN SPACE, WHICH WILL MAKE COPENHAGEN AN EVEN GREENER AND MORE ATTRACTIVE CITY IN WHICH TO LIVE.
AYFER BAYKAL, MAYOR OF THE TECHNICAL AND ENVIRONMENTAL ADMINISTRATION, THE CITY OF COPENHAGEN
THE IDEA BEHIND
The approach of Klimakvarter is to view rainwater as a positive – and visible – element in the city. The project sees rainwater as a resource that should be showcased, not as a hazard to be ﬂushed away underground. By retaining rainwater above ground in green reservoirs, swales and storage tanks, rainwater becomes an active part of a neighbourhood’s urban identity and residents’ lives. Children will be using rainwater at playgrounds, while parents tap storage tanks to water plants. Klimakvarter aims to solve the technical problem of a sewer system being too small to handle the increased amount of rainwater due to climate change with positive elements such as parks, swales and resilient urban spaces. Awareness of rain as a resource is created, along with bigger incentives to create resilient neighbourhoods among the citizens.
www.klimakvarter.dk
133
Cities
Dynamic Parking Pricing
SFpark is pioneering parking management using demand-responsive pricing to make parking easier for urban dwellers in San Francisco, while reducing emissions due to circling for parking.
Under the slogan “Circle Less, Live More,” SFpark manages parking demand in San Francisco by collecting and distributing real-time information about where parking is available. To help achieve the right level of parking availability, SFpark periodically adjusts meter and garage rates. The aim is to reduce double parking and the time distracted drivers circle looking for parking. The program reduces congestion, wasted time and fuel, while improving the speed and reliability of public transit, access to businesses, and road safety. Furthermore, SFpark engages citizens by encouraging independent developers and researchers to use its public data and open source code to create new apps and data.
Why a Sustainia100 solution? E ective parking management encourages potential drivers to take other modes of transportation and reduces carbon emissions. Lessons learned from the project are documented and publicly available, which will help scale demand-responsive pricing to the entire city and persuade other cities to adopt a similar approach.
ENVIRONMENTAL Thirty percent of tra c in central business districts is vehicles searching for parking.1
SOCIAL Double-parked cars cause accidents, and distracted drivers looking for parking are more likely to collide with pedestrians, cyclists, or other cars. Better parking management results in fewer accidents and safer roads.
ECONOMIC Better parking management is good for economic vitality by making it easier to access and enjoy the city’s commercial areas.
Developed in USA Deployed in USA
The SFpark project covers about 25% of San Francisco’s 29,200 parking meters.
“BETTER PARKING MANAGEMENT IS A POWERFUL TOOL FOR IMPROVING A CITY’S SUSTAINABILITY, QUALITY OF LIFE, AND ECONOMIC COMPETITIVENESS.”
JAY PRIMUS, PROGRAM MANAGER, SFPARK
1
Shoup,”Cruising for parking.”
Solution by the City of San Francisco and the SFpark project 134
Cities
Peer-to-Peer Borrowing and Lending
Save money and resources by sharing goods and skills with your neighbors.
NeighborGoods.net is a social platform for peer-to-peer borrowing and lending. Need a ladder, wheelbarrow, or power drill? Borrow it from your neighbor. Have a bike, backpack, or sleeping bag collecting dust in the garage? Lend it out, and make a new friend.
ENVIRONMENTAL By sharing goods, consumers increase energy and resource e ciency and save resources at every step of the life cycle.
SOCIAL Neighbors helping neighbors builds social capital and resilient local communities.
NeighborGoods facilitates transactions with a reservation calendar, automated reminders, wishlist alerts, and private messaging between neighbors. NeighborGoods also keeps track of members’ loaned property. Neighbors can rate each other and ﬂag another member’s account if something goes wrong. Borrowing and lending items on NeighborGoods is free, but members may charge a deposit or a rental fee for the use of their items.
Why a Sustainia100 solution? NeighborGoods notes that Americans spend $22 billion annually on self-storage. Sharing with NeighborGoods can give a second life to little-used gear, tools, and products. If a consumer borrows an item instead of buying something new, it saves money and resources and builds bonds between neighbors.
ECONOMIC NeighborGoods says the average active neighbor has saved over $2,000 and saved his or her neighbors twice that amount.
Developed in USA
Deployed in USA, Canada, UK
NeighborGoods connects neighbors to share resources, helping them save money and build stronger communities.
“WHEN I CREATED NEIGHBORGOODS, I THOUGHT SHARING WAS ABOUT THE OBJECTS. I LEARNED VERY QUICKLY, SHARING IS ABOUT PEOPLE.”
MICKI KRIMMEL, FOUNDER & CEO, NEIGHBORGOODS
Solution by NeighborGoods 135
Cities
Intelligent Streetlights
Tvilight uses smart controls to adjust the illumination and energy levels of streetlights.
Tvilight combines hardware, a tiny intelligent module that includes sensors, wireless communication, and a dimmer that can be installed on any existing dimmable streetlight, and advanced software that controls streetlights, monitors electricity usage, and analyzes tra c data. The system detects human occupancy to control the light intensity in an area. The lights dim during o -peak hours, but when a unit detects a pedestrian, bicycle, or automobile, the surrounding lights return to full brightness.
Why a Sustainia100 solution? Millions of streetlights burn all night, even when there is no human activity in the area. Tvilight estimates that the Netherlands alone pays over $390 million annually on street lighting electricity, with CO2 emissions of 1.6 million tons. Tvilight’s intelligent streetlights reduce electricity consumption and maintenance costs by up to 80% and 50% respectively, without compromising public safety.
ENVIRONMENTAL The 91 million streetlights in Europe consume over 68 terawatt-hours of electricity annually. Huge reductions in GHG emissions can be realized with intelligent streetlights.
SOCIAL Intelligent streetlights improve public safety and reduce light pollution.
ECONOMIC Europe’s 91 million streetlights consume over $13 billion in electricity annually.
Developed in The Netherlands
The Tvilight system dims streetlights if there is no occupancy nearby. Lights then glow when tra c is detected, creating a path of light.
Deployed in The Netherlands, Ireland, Germany, UK, USA, Canada, Australia, India, United Arab Emirates
“TECHNOLOGY IS THE KEY TO SOLVE TODAY’S ENVIRONMENTAL CHALLENGES. THIS PRINCIPLE IS THE FOUNDATION OF OUR COMPANY.”
CHINTAN SHAH, CEO, TVILIGHT
Solution by Tvilight 136
Cities
Real-Time Ridesharing App
SideCar is a ride-matching app that connects willing drivers on the roads with people needing a ride.
Pre-screened drivers willing to make their private cars available to people in need of a ride are alerted via the SideCar mobile phone app when a ride is requested from someone nearby. If drivers accept the request, passengers are taken to their destination. At the time passengers submit a SideCar pick-up request, they receive a suggested average “donation” for their trip. Payments are voluntary and are handled via a cashless system between smartphones.
Why a Sustainia100 solution? Filling empty seats in cars already on the road makes better use of roads and highways, which saves energy, relieves congestion, and reduces air pollution. The service also makes car transport available to those without a car.
ENVIRONMENTAL By preventing single-occupancy car trips, SideCar helps reduce vehicle tailpipe emissions, often the largest source of air pollution in cities.
SOCIAL By connecting willing drivers with people in need of a ride, SideCar can help build a feeling of community.
ECONOMIC Users in the San Francisco Bay Area often pay about half as much for long-distance trips booked with SideCar as the same trip made by taxi.
While on the road, Sidecar’s app matches drivers with extra seats with people in need of a ride.
Developed in USA
Deployed in USA
Solution by SideCar 137
Cities
City Design with Daylight
A new design method is optimizing distribution of daylight in cities to revitalize buildings and neighborhoods while reducing energy consumption.
Daylight is a valuable resource to harness in cities. Henning Larsen Architects and partners have developed a method for sustainable urban planning that systematically analyses and maps daylight in urban areas and buildings, putting in place an operational strategy for sustainable renovation in residences and on a city level. The method is a scalable tool for urban planners, with value-adding beneﬁts for residents, owners, and authorities. The new design method has been developed based on scientiﬁc research, which proves that using daylight as the sole means of revitalizing cities and buildings has a tremendous positive inﬂuence on the environment in cities and the energy consumption of buildings.1
Why a Sustainia100 solution? Daylight has a signiﬁcant inﬂuence on the health and comfort of citizens. It is essential that urban planners incorporate daylight in their designs, and acknowledge the possibility of energy-related synergies between the various elements that make up a city. This method makes possible the design of cities and buildings that improve the quality of urban life while reducing environmental impact.
ENVIRONMENTAL In 2012, Henning Larsen Architects designed more than 500,000 m2 of buildings with an energy consumption of 40 kWh/m2/yr, a reduction of 15 million kWh compared to Danish regulatory standards.
SOCIAL More daylight will increase the social capital of a neighborhood, due to a comfortable and improved microclimate.
ECONOMIC Daylight is a marketable attribute in real estate. It reduces energy consumption and increases the appeal and market value of buildings.
Developed in Denmark
Through daylight simulations, urban areas can be planned to optimize the distribution of daylight. This approach reduces the energy consumption of buildings and increases the quality of its indoor and outdoor spaces.
Deployed in Denmark, Faroe Islands, Germany
1 Henning Larsen Architects: “What about daylight?”
Solution by Henning Larsen Architects, Algreen Arkitekter, The Royal Danish Academy of Fine Arts, and Realdania 138
Cities
Low-Carbon Growth in an Emerging City
The Colombian city of Montería is showcasing how cities in emerging economies can grow their economies while adapting to and mitigating climate change.
Monteria’s population of 400,000 is increasingly being exposed to climatic changes such as heavy rainfall and risk of ﬂooding. Montería Green City 2019 is a pioneering Latin American city initiative that targets current and future greenhouse gas (GHG) emissions, adapting the city to climate change, and improving urban growth. The plan comprises 26 actions to address 15 challenges in order to reduce GHG emissions by 20% by 2019. The actions cover areas ranging from urban mobility, with increased use of bikes, to waste management, and protecting the city’s natural heritage with biodiversity and reforestation. Through a public-private partnership with Proactiva Medio Ambiente in 2011, Montería was the ﬁrst Colombian city to calculate its carbon footprint. Montería has since developed a detailed plan together with key stakeholders in the city, notably the university, companies, farmers, and architects, as well as the public.
Why a Sustainia100 solution? Montería Green City 2019 will guide the next 10 years of the city’s history towards balanced and innovative growth that respects the environment, reduces carbon emissions, and ensures the quality of life for Monteríans.
ENVIRONMENTAL Non-OECD countries are responsible for over 50% of current GHG emissions and are projected to account for the bulk of increases until 2035.1
SOCIAL One million trees will be planted in Montería over the next 10 years, with increased access to public parks and recreation.
ECONOMIC Montería has gained regional and national recognition, increasing competiveness and attracting investors, according to Proactiva Medio Ambiente.
Improving mobility, Monteria is increasing use of bicycles as a means of urban transportation.
Developed in Colombia, Spain
Deployed in Colombia
1
IEA, “World Energy Outlook 2011.”
Solution by the City of Montería and Proactiva Medio Ambiente 139
Cities
Inner-City Bus Rapid Transit
Streets in Mexico City’s downtown were rebuilt to accommodate a new bus rapid transit (BRT) line, Line 4, while preserving historical structures.
Mexico City’s pioneer mobility project, Metrobus Line 4, utilizes all of the components of a successful bus rapid transit (BRT) system: dedicated lanes, enclosed stations with levelled access and prepayment, large buses with multiple doors, advanced fare collection, and a sleek image. Inaugurated in April 2012, Metrobus Line 4 runs through Mexico City’s historical downtown, with an extension to the international airport. Line 4 was carefully designed to preserve the colonial architecture of the historical city center. Metrobus Line 4 operates the ﬁrst hybrid buses deployed in Latin America.
Why a Sustainia100 solution? Metrobus Line 4 is a showcase project that has improved mobility and public health, without sacriﬁcing the cultural heritage of Mexico City’s Historical District. The BRT line has reduced travel times along its route and has improved the connectivity of the city’s existing transportation infrastructure. The reorganization of public transport in the city center has made it a more pleasant and attractive place for tourists to visit and residents to call home.
ENVIRONMENTAL Metrobus Line 4 has reduced particulate emissions by 94%, NOX emissions by 75%, and CO2 emissions by 35% compared to its predecessor.
SOCIAL Line 4 serves up to 50,000 passengers daily, and has connected the public transport network in Mexico City better.
ECONOMIC Users of Line 4 pay just $2 dollars for the ride from the airport to Mexico City’s historical city center.
Developed in Mexico
Deployed in Mexico
Metrobus Line 4 is providing groundbreaking mobility in Mexico City.
“METROBUS LINE 4 PROVIDES AN EFFICIENT TRANSPORT, CLEAN AND SAFE TRANSPORTATION THAT RESCUES AND INTEGRATES VALUABLE HISTORICAL SPACES.”
ADRIANA LOBO, DIRECTOR, CTS-MÉXICO
Solution by Mexico City’s Government, Metrobus, and CTS-EMBARQ Mexico 140
Cities
River-Assisted District Cooling
The City of Gothenburg, Sweden, built a district cooling system supplemented by free cooling provided by the river Göta älv.
Gothenburg, Sweden, uses free cooling from the river Göta älv to pre-cool water used in its large-scale district cooling system. By using a combination of river water for pre-cooling and waste heat from an incineration plant to drive its absorption chillers, Gothenburg substantially lowered CO2 emissions compared to conventional cooling methods. Customers get the environmental beneﬁt of sustainable cooling at an a ordable cost.
Why a Sustainia100 solution? Gothenburg’s district cooling system harnesses free, local resources – river water and surplus heat – in order to o er citizens a cost-competitive, energy-e cient alternative to conventional air-conditioning. District cooling in Gothenburg is a sustainable way of providing a solution for a growing cooling market.
ENVIRONMENTAL The system reduces CO2 emissions by up to 80% compared to conventional air-conditioning.
SOCIAL District cooling provides much higher availability and reliability than the standalone alternatives.
ECONOMIC In return for investing in an energy transfer station, customers only pay for the cooling they use.
In Gothenburg, Sweden, river water and surplus heat helps deliver sustainable district cooling.
Developed in Sweden
Deployed in Sweden
Cool water inﬂow
Waste heat from waste incineration plant used to chill water
Water outlet
Supply temp. 6°C Return temp. 16°C
Solution by Capital Cooling 141
Cities
142
Cities
Retroﬁtting an Inner-City District
In the heart of London, the King’s Cross development is achieving sustainability while protecting cultural heritage.
The 66 acre development at King’s Cross is creating a new piece of London: 50 new buildings, 2,000 new homes, 20 new streets, and 10 new parks and public spaces. The cultural heritage of the area was given priority during the “retroﬁtting” process. Reuse of heritage buildings and programs to create a ordable homes are in place in order to protect social and cultural diversity. King’s Cross includes energy-e cient buildings, with all new buildings achieving a BREEAM “Excellent” rating, green transportation, and a treeplanting program. Eighty percent of power demand is to come from renewable technologies like roof-mounted wind turbines and solar panels as well as a combined heat and power (CHP) plant that is 80% e cient, compared to 30% in the conventional UK electricity supply. However, with the CHP plant being gas powered, King’s Cross should develop a plan to achieve 100% renewable energy in order to be truly inspirational in terms of energy production.
Why a Sustainia100 solution? When complete, 45,000 people will live, work, or study in King’s Cross, demonstrating that sustainable solutions are viable, can improve people’s lives, and are available on a massive scale in cities.
ENVIRONMENTAL Energy usage at King’s Cross will be at least 39% less than industry norms.
SOCIAL Improved quality of life is expected through transforming the physical environment and creating new a ordable housing, parks, public spaces, and sports facilities.
ECONOMIC Energy-e cient design will provide residents and tenants with signiﬁcant savings on energy costs.
Developed in UK
Deployed in UK
“AT KING’S CROSS, SUSTAINABILITY INFLUENCES EVERYTHING WE DO AND THE BENEFITS ARE ALREADY BEING DELIVERED. IF YOU NEED PROOF THAT SUSTAINABILITY WORKS, I WOULD ENCOURAGE YOU TO COME AND SEE IT FOR YOURSELF.”
DAVID PARTRDGE, DIRECTOR, ARGENT
Solution by King’s Cross Central Limited Partnership and Argent 143
Resources
144
Resources
Key trends
Resources sector
Creating closed loops
Repairing and reusing broken items
Eliminating waste generation
Upscaling waste products
Ensuring clean drinking water
145
Resources
Chlorine Generator Kills Waterborne Pathogens
WaterStep’s M-100 chlorinator provides up to 38,000 liters of safe water daily, advancing quality of life by eradicating waterborne illness and improving hygiene.
Functioning as a mini-water treatment plant, the M-100 provides a continuous supply of safe water. It is a ﬂexible system easily paired with ﬁltration, storage tanks, and hand pumps, depending on its site of deployment. Further, it is portable and can be carried from station to station to purify water. The M-100 is easily operated by non-technical individuals using salt and a 12-volt car battery or solar panel. The design results in faster, thorough sanitation of water through the distribution of manufactured chlorine gas that kills waterborne pathogens.
Why a Sustainia100 solution? A child dies every 48 seconds due to waterborne illnesses. The UN declared 2013 International Year of Water Cooperation, reporting that 2.5 billion people lack access to basic sanitation. WaterStep’s solution empowers collaboration in both development and disaster situations, providing safe water and sanitation remedies. The M-100’s byproducts, chlorine and sodium hydroxide, can be used in ﬁrst aid and kill mosquito larvae to enhance community stability.
ENVIRONMENTAL The M-100 manufactures chlorine and sodium hydroxide as byproducts that can be combined to create a safe saline solution at the conclusion of the treatment process.
SOCIAL WaterStep’s chlorination process has been deployed in 24 countries, bringing safe water to close to 1 million people daily.
ECONOMIC Clean water makes people more productive members of their communities.
Developed in USA Deployed in Brazil, Democratic Republic of Congo, Costa Rica, Dominican Republic, Ethiopia, Ghana, Guatemala, Haiti, Pakistan, Honduras, India, Iraq, Kenya, Malawi, Mexico, Myanmar, Nicaragua, Panama, Peru, Sierra Leone, Tanzania, Thailand, Uganda, USA
Solution by WaterStep 146
Resources
Water is diplomacy and empowerment that requires the participation of communities everywhere to generate compassion and peace.
WATERSTEP EQUIPS AND EMPOWERS PEOPLE TO PROVIDE SAFE WATER SOLUTIONS FOR HEALTHIER COMMUNITIES BY USING A SIMPLE, AFFORDABLE, ADAPTABLE, EFFICIENT, AND ROBUST CHLORINE GENERATOR.
MARK HOGG, FOUNDER AND CEO, WATERSTEP
THE IDEA BEHIND
Using tools like the M-100 chlorinator, WaterStep actualizes a vision for the future in which: all medical facilities have access to safe water; disaster-relief e orts utilize e cient options other than bottled water; a virtual water company is dependent on people rather than infrastructure; and water education is available via mobile devices. WaterStep is working towards this vision through various projects, such as implementing ďŹ&#x201A;ood-relief e orts in Pakistan, developing backpacks designed to easily carry the M-100 between communities, and teaching hand-pump repair coupled with sanitation classes in Malawi. Partners as diverse as the United States Southern Command, General Electric, Ivy Technical Institute and Mahindra Satyam are invested in this future through skill-based volunteering that spans their employee network. Sustainable water solutions connect people of all backgrounds, histories and religions to save lives.
www.waterstep.org
147
Resources
Integrated Bioenergy Production for Aviation
Utilizing seawater and desert land, this solution produces bioenergy and food by using waste streams from one subsystem as input for the next.
Taking advantage of the synergies and interactions between several subsystems, the Integrated Seawater Energy and Agriculture System (ISEAS) uses non-arable desert land, irrigated with seawater, to produce bioenergy and food. The system integrates ﬁsh or shrimp farming with the production of the salt-tolerant crop Salicornia and sea mangroves. Utilizing the oilseed from the Salicornia plant, liquid biofuel for aviation is produced via hydro-processing, with leftover biomass from this process as well as the mangrove production made available for bioenergy. The beneﬁts of the integrated system stem from the use of coproducts from each process to supplement energy or material inputs for the other processes with the end result being biologically treated seawater.
Why a Sustainia100 solution? The ISEAS has the potential to provide drop-in aviation and other types of bioenergy with life-cycle greenhouse gas emissions less than those of conventional fossil fuelbased aviation fuels. The ISEAS o ers the additional beneﬁts of using seawater, not freshwater, while making productive use of marginal land.
ENVIRONMENTAL A Salicornia-based biofuel could result in a 100% reduction in life-cycle GHG emissions.1
SOCIAL Thirteen percent of the world’s people live in arid zones 2. This solution can provide new jobs and opportunities in resourcechallenged regions.
ECONOMIC Alternative fuels help diversify supply for the aviation industry, generating options for the purchase of fuel, which represents close to 40% of an airline’s operating costs.
Ocean
Developed in United Arab Emirates
Deployed in United Arab Emirates
Biogically Treated Seawater
Seawater
Mangroves Biomass
Fish farm Fish or shrimp
Remaining water
1 Stratton, Wong, and Hileman, “Life Cycle Greenhouse Gas Emissions from Alternative Jet Fuels.” 2
Nutrient rich water
Valerio Crespi, “Global Desert Aquaculture at a Glance.”
Salicornia Aviation fuels and biomass
Solution by The Boeing Company, Etihad Airways, UOP-Honeywell, Safran, and the Masdar Institute of Science and Technology 148
Resources
Waste Education and Collection
TerraCycle is a global initiative focused on the collection and repurposing of otherwise non-recyclable waste streams working in 21 countries worldwide.
TerraCycle runs recycling fundraisers that collect and reuse over 60 di erent non-recyclable waste streams ranging from pens to hospital waste to cigarette butts. Any school, charity, individual, or business can sign up for free to earn money for non-proﬁts by collecting trash they used to throw away. For every piece of waste a collector returns, two cents (or the local equivalent) is donated to a school or non-proﬁt of their choice. The collected material is recycled or upcycled into consumer products, building materials, and industrial applications.
Why a Sustainia100 solution? Garbage is a major global environmental issue. Recycling rates remain low in most countries, and environmental education is not a priority at most schools. TerraCycle’s solution helps to reduce waste today by providing an incentivized collection system, while also focusing on educating younger generations to become more sustainable citizens. The solution does not solve the vast issue of waste production itself, but it is a positive contribution to waste management.
ENVIRONMENTAL Over 2.5 billion pieces of waste collected and recycled have resulted in a 40-80% carbon savings over traditional disposal options, the company claims.
SOCIAL Over 25 million students have engaged in TerraCycle’s recycling and environmental education programs.
ECONOMIC Almost $8 million has been donated to schools since 2008.
Developed in Australia, South Korea, Japan, India, China, Columbia, Italy
Deployed in USA, Canada, Mexico, Argentina, Brazil, UK, Ireland, France, Germany, Spain, Belgium, Luxembourg, The Netherlands, Austria, Switzerland, Denmark, Sweden, Norway, Hungary, Israel, Turkey
Solution by TerraCycle 149
Resources
Restoring Desert Land using Livestock
The Savory Institute promotes largescale restoration of the world’s grasslands using properly managed livestock, while educating and empowering people living in desert regions.
The Savory Institute uses livestock to combat desertiﬁcation. By enhancing biological decay, the timely stomping and excrement from a large number of animals holds the potential to reverse dry, exposed land into healthy grasslands with rich soils. The Savory Institute is empowering people to reverse desertiﬁcation by teaching them Holistic Management, a decision making process used to ensure livestock are at the right place, at the right time, for the right reasons, with the right behavior. Savory Hubs offer consulting and training services, and provide access to land, networks, and funding resources necessary to expand the practices across regions.
Why a Sustainia100 solution? For many years, large swaths of grasslands around the world have been turning into barren deserts. An estimated one-third of the Earth’s surface is covered with grasslands threatened by desertiﬁcation. The possibility of restoring the land provides opportunities not only for food production and social development, but could positively impact e orts to slow climate change by keeping carbon in the ground that would otherwise be released into the atmosphere with desertiﬁcation.
ENVIRONMENTAL Dry, infertile, exposed soil is unable to store carbon, releasing it into the atmosphere.
SOCIAL The Savory Institute establishes locally led and managed hubs around the world empowering people to use properly managed livestock to heal the land.
ECONOMIC The Savory Institute has joined a collaboration of sheep producers in Argentina that works to restore 40 million acres of grasslands and add value to the wool produced.
Developed in USA
Deployed in USA, Canada, Mexico, Australia, Pakistan, Kenya, Namibia, New Zealand, South Africa, Brazil, Chile, Argentina, Turkey, Sweden, Zimbabwe, UK, Spain.
Solution by The Savory Institute 150
Resources
Intelligent Waste and Recycling Collection
BigBelly Solar provides garbage collectors with real-time data and onsite compaction to bring cost savings, environmental beneﬁts, and ease tra c congestion.
Through the use of solar power and smart monitoring technologies, BigBelly Solar makes garbage collection intelligent with beneﬁts to cities, transit organizations, and college campuses. By providing garbage collectors with real-time data and historical reporting for collection sites, this solution makes it possible to switch from uninformed schedules to just-in-time collection. These insights mean that collection frequency can be slashed to conserve fuel, reduce emissions, and make operations more e cient.
Why a Sustainia100 solution? BigBelly Solar is bringing 21st Century technology solutions to a service that has seen little innovation in many decades. Garbage trucks are some of the least e cient vehicles on the road, some only getting 2 miles per gallon. Taking these trucks o the road conserves fuel, limits emissions, avoids tra c jams, and cuts down on wear and tear on the streets. The BigBelly garbage collectors are powered by 100% renewable solar energy.
ENVIRONMENTAL BigBelly Solar slashes greenhouse gas emissions, and reduces fuel consumption, from garbage trucks.
ECONOMIC Garbage collectors save money by using less fuel and allocating sta to other tasks, as well as reducing landﬁll tipping fees.
Developed in USA
Deployed in USA, Canada, Mexico, Brazil, Colombia, Panama, UK, France, Spain, Sweden, Denmark, Germany, Austria, Switzerland, Australia, Monaco, Ireland, Belgium
“BIGBELLY SOLAR IS HELPING THOUSANDS OF COMMUNITIES HELP THE ENVIRONMENT WHILE SAVING MONEY AND CREATING CLEANER PUBLIC SPACES. EVERYBODY WINS.”
JIM NORROD, CEO, BIGBELLY SOLAR
Solution by BigBelly Solar 151
Resources
Extending Life of Goods through Trade Rings
Netcycler brings back the value of the things you own, and enables you to use that value to get the stu you actually want and need.
Netcycler makes it easy to swap, sell, and buy pre-owned items. Using computer algorithms, the service is able to automatically combine the item wishes and o ers for several people into trade rings of up to ﬁve people. This signiﬁcantly increases the probability of matching o ers and wishes compared to traditional one-to-one swapping. Users simply list the items they no longer need and make a wishlist of items they would like to get. After that, the service builds trade proposals based on these o ers and wishes.
Why a Sustainia100 solution? When a pre-owned item ﬁnds a new owner, it means there is no need to buy a new manufactured item. By limiting the need for manufacturing, Netcycler limits the use of resources and energy, transportation, and therefore CO2 emissions. Swapping extends the life of goods and keeps stu out of landﬁlls. It is a positive step towards the creation of a closed-loop system.
ENVIRONMENTAL Netcycler reduces the use of resources and energy to manufacture new goods.
SOCIAL Instead of using money to buy new items, the consumer can use existing goods as a currency when swapping.
ECONOMIC The advanced categorization and automatic trade ring technology makes using the service easy, which expands the market for reuse of goods.
Developed in Finland
Deployed in Finland, Germany, UK, USA
Linda wishes for money and o ers a stroller
Andrew wishes for a stroller and o ers roller skates
Trade Ring
Netcycler allows for up to ﬁve people to enter a trade ring generated from their o ers and wishes, including the possibility of cash payment.
John wishes for a life vest and will pay Linda $20
Melina wishes for roller skates and o ers a life vest
Solution by Netcycler 152
Resources
Repair Broken Items at the Local Café
Instead of throwing items away, Repair Cafés strive to bring them back by making repair a social activity in communities.
Repair Cafés are free meeting places where volunteer repair experts help neighbors ﬁx broken items that they have brought from home. This way, new social interactions between neighbors are established and people with practical skills use and pass on their skills to others. The products that are repaired and saved from the trash bin keep items and raw materials in use. As a result, energy consumption from the production of new items is avoided and money is saved. The Repair Café Foundation helps local groups in Europe and beyond start their own repair meetings and Repair Cafés in their community.
Why a Sustainia100 solution? People in the Western world create waste by consuming and throwing away vast amounts of stu . This would not be necessary if people would use and appreciate the practical repair skills still present in the communities. The Repair Café Foundation helps communities to identify the people who possess these skills and involve them in the local Repair Café.
ENVIRONMENTAL Because of the Repair Café concept, more items can continue to be used, which saves raw materials and energy and reduces CO2 emissions.
SOCIAL At the Repair Café, people with practical repair skills, who tend to be sidelined in Western societies, are highly appreciated.
ECONOMIC The Repair Café saves money because items that can be repaired by a volunteer repair expert do not have to be replaced by new ones.
Developed in the Netherlands
Deployed in the Netherlands, Belgium, Germany, France, UK, Italy, Brazil, Australia, USA, Canada
Solution by Repair Café Foundation 153
Resources
Decentralized Wastewater Treatment
Treating wastewater on site, the BioBooster allows for water reuse and preserves the local aquatic environment within a given watershed.
Grundfos BioBooster is a full-scale decentralized wastewater treatment plant based on an advanced membrane ultraﬁltration process. The ﬁltration process removes bacteria from the wastewater, which can be reused for irrigation of recreational areas and crops. The modularity of the plant will match exact wastewater capacity and speciﬁc types of ﬂows from both industrial and municipal sources. Supporting the concept of a self-sustained village, the decentralized treatment plant does not require infrastructure such as pipes and pumping stations, translating into reduced energy costs. The plant is remotely monitored, which ensures constant regulation of the processes.
Why a Sustainia100 solution? The world’s population is growing and demanding more water. But only 3% of the Earth’s water is fresh, of which only 1% is available for consumption. By treating wastewater, it is possible to protect the local aquatic environment from waste and enable water reuse, which helps to conserve fresh water.
ENVIRONMENTAL Removal of pollutants and pathogens from wastewater ensures that the water treated and returned back to nature or reused is clean and safe.1
SOCIAL BioBooster can be located within residential areas with no hazard to personnel and surrounding neighbors and without unwanted odors.
ECONOMIC BioBooster provides an alternative to centralized wastewater treatment plants, with reduced energy for piping and pumping stations.
Developed in Denmark Deployed in Denmark, Norway, Sweden
“WATER SCARCITY CAN BE FOUGHT BY TREATING WASTEWATER LOCALLY AND REUSING IT. IT REQUIRES A PARADIGM SHIFT IN THE WAY WE VIEW AND MANAGE WASTEWATER.”
BENT GADGAARD, MANAGING DIRECTOR, GRUNDFOS BIOBOOSTER A/S
1 Saﬁr4eu, “Vegetables Irrigated with Recycled Water Are safe.”
Solution by Grundfos BioBooster 154
The full-scale decentralized wastewater treatment plant will remove pathogens from hospital wastewater on the grounds of Herlev Hospital, Denmark.
Resources
155
Resources
Cash for your Mobile Phone
Mazuma Mobile has prevented over 4 million mobile phones from reaching landďŹ lls by giving consumers cash for their used handsets.
Mazuma Mobile o ers cash for your old handset. Mazuma uses an onsite Waste Electrical and Electronic Equipment (WEEE) Directive-compliant facility to test and categorise mobiles for reuse. Fully working and repairable phones are reused by approved reuse partners; non-repairable phones are recycled by approved recycling partners. Since 2007, Mazuma Mobile has paid customers a total of $275 million and recycled over 4 million mobile phones.
Why a Sustainia100 solution? With millions of consumers storing old handsets, Mazuma Mobile provides an economical and ecological solution for the hundreds of thousands of mobiles destined for landďŹ lls, or left unused in kitchen drawers, each month. By reusing the recycled handsets in emerging countries, Mazuma Mobile is able to improve the quality of life for, and provide Internet access to, those in developing countries for whom new technology is not readily available. Mazuma Mobile has already established long-term relationships with approved partners in China and Africa. The next step should be to address end-of-life challenges for the mobile phones recycled in developing countries.
ENVIRONMENTAL Reuse is the most e ective form of recycling, as it prevents the need for additional virgin resources to make new products.
SOCIAL Mazuma Mobile enables those in emerging markets to have access to new technology and to the Internet.
ECONOMIC By repurposing the phone, or recycling its components, Mazuma increases the lifespan of a mobile phone.
Developed in UK, Australia
Deployed in UK, Australia
Solution by Mazuma Mobile 156
Resources
Capturing CO2 to Create Beneﬁciary Byproducts
This carbon capture and neutralization solution lowers CO2 emissions, reuses waste material and water, and creates aluminium and water as byproducts.
Cuycha Innovation’s solution captures CO2 emissions from ﬂue gas and neutralizes and permanently binds them in carbonate form. According to the company, this method enables a 40% to 90% reduction of CO2 emissions. The ﬂue gas is washed with water or mine drainage to form carbonic acid. The resulting mildly acidic water is passed through a series of reaction silos ﬁlled with crushed feldspar. This material is readily available as it forms over 60% of the Earth’s crust. The byproducts of this process are typically valuable, easily marketable compounds like aluminium oxides, various carbonates, and bicarbonat water. Joint ventures have been set up in Africa, Australia, and the UK, with one plant under construction and three industrial projects in the implementation phase.
Why a Sustainia100 solution? Carbon capture solutions often stall due to high energy consumption. It is unveriﬁed whether this solution will be able to overcome this barrier and scale globally, but if the potential is realized across multiple industries, carbon capture and neutralization could represent an important building block for the sustainable society.
ENVIRONMENTAL According to Cuycha Innovation Oy, the technology is capable of reducing CO2 emissions by 40% to 90% while reusing waste minerals.
ECONOMIC Apart from the lowering of CO2 emissions, this solution provides valuable and commercially usable byproducts.
Developed in Finland, Botswana, South Africa, UK, Australia
Deployed in Finland, Botswana, South Africa
Bio Diesel
Lithium
Calcium Carbonate
Alumina
Quartz
Solution by Cuycha Innovation 157
“THESE SOLUTIONS ARE TRANSFORMING OUR HOMES, RESHAPING OUR CITIES, AND BRINGING NEW IDEAS TO ENTIRE COMMUNITIES.”
Governor Arnold Schwarzenegger, Honorary Chair of Sustainia Award Committee, Chairman of Regions20
“WITH ITS 100 SOLUTIONS TO BUILD OUR FUTURE, THIS INNOVATIVE INITIATIVE, SUSTAINIA, PRESENTS A WORLD OF OPPORTUNITIES.
Helle Thorning-Schmidt, Prime Minister of Denmark
158
“WITH THE SUSTAINIA100 THERE IS NO EXCUSE FOR NOT CHOOSING A SUSTAINABLE PATH TO THE FUTURE. THE SOLUTIONS ARE THERE. READY FOR USE.”
Gro Harlem Brundtland, former Prime Minister of Norway and former General-Secretary WHO
“THE SUSTIANIA100 PROCESS HAS INSPIRED MANY COMPANIES, CONSUMERS, AND POLICY MAKERS.”
Georg Kell, Executive Director, UN Global Compact, Sustainia Award Ceremony 2012
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Methodology
CAMPAIGN
We strive to continously improve Sustainia100, and make it a valuable tool that can guide the transformation to a sustainable society.
FEBRUARY
ADVANCE WINNER
NOVEMBER
ANALYZE APPLICANTS
MARCH
AWARD AND CELEBRATE
OCTOBER
CALL FOR SOLUTIONS
APRIL
CONSULT ADVISORY BOARD SELECT CANDIDATES
MAY
AUGUST
JUNE
PICK FINALISTS
WRITE UP THE BOOK
PUBLISH AND INSPIRE
Finding and selecting the solutions
In early 2013, we launched a campaign to get submissions from the global sustainability community. Together with our own extensive research into trends and new developments within 10 sectors, this resulted in 500+ applicants analyzed for ﬁnal review. We reviewed solutions from 79 countries, spanning all 10 sectors, and representing a wide variety of business models. All applicants were reviewed using ﬁve criteria, which enabled us to select 215 Candidates to be presented to our external Advisory Board of sector experts.
How we deﬁne sustainability
The concept of “sustainable development” was introduced in 1987 by the World Commission on Environment and Development, in the report “Our Common Future” (also known as “the Brundtland Report”). The report deﬁnes sustainable development as:
“
… development that meets the needs of the present without compromising the ability of future generations to meet their own needs. It contains within it two key concepts: • the concept of ‘needs,’ in particular the essential needs of the world’s poor, to which overriding priority should be given; and • the idea of limitations imposed by the state of technology and social organization on the environment’s ability to meet present and future needs.
Picking the nominees
Advisory Board members were asked to observe our Evaluation Criteria when making their judgments on solutions within their ﬁelds of expertise. They were also encouraged to apply their sectorspeciﬁc sustainability expertise during this process, and to share all considerations or concerns in meetings with Sustainia. Advisory Board members were invited to suggest alternative candidates that they felt deserved consideration. We requested additional information from 143 candidates. With this information, we were able to answer outstanding questions and qualify our ﬁnal selection of the 100 solutions and projects published in this book.
The notion of the triple bottom line – environmental, social, and economic sustainability – is inspired by the deﬁnition from the Brundtland Report, and is also a pivotal point of reference for evaluating the solutions.
”
160
Evaluation Criteria
Sustainia100 solutions meet ﬁve criteria
1. Readily available
Sustainia100 candidates must be more than just vague ideas or blueprints. Sustainia100 is all about solutions that are accessible and able to move us towards a sustainable society today. It does include solutions that are not yet realized and some that are only prototypes. Such cases have been included because they have strong commitment from investors, partners, markets, or politicians that suggest further development is likely in progress.
3. Financially viable
The cost of a given solution or project must be justiﬁed in light of its promised beneﬁts. Candidates are not discredited for relying on subsidies or highly philanthropic business models. But a ordability and ﬁnancial sustainability are key qualities for Sustainia100 candidates.
4. Improve quality of life
Solutions and projects that make for a better and more sustainable life is what Sustainia is all about. Solutions are assessed on their ability to deliver such improvements. Sustainia100 soltions should enhance the quality of life for citizens, and help communities bring about real change.
2. Positive environmental impact
At the very least, Sustania100 candidates represent an improvement from the status quo in terms of having a positive impact on global climate or local environmental factors. The best candidates incorporate cutting-edge technologies or methods that challenge present standards and the “business as usual” mentality.
5. Scalable
The ability to scale up is essential. This entails that solutions can have a wider and lasting impact beyond their present location and circumstances. Scalable solutions are characterized by being backed by strong partners, quality management, and having a sound business model.
The Sustainia100 Advisory Board
Our Advisory Board consists of experts with whom Sustainia has a non-ﬁnancial relationship. Sustainia has been in close dialogue with the advisors, who have been encouraged to disclose any biases, such as technology preferences, personal interests, and/or policies of organizations they represent. Some members of the Advisory Board have asked to remain unaccredited due to internal policies of the organizations they represent.
WWF CLIMATE SOLVER Stefan Henningsson, Senior Adviser Climate Innovation, WWF International Stephan Singer, Director Global Energy Policy, WWF International Jean-Philippe Denruyter, Manager, Global Renewable Energy Policy, WWF International Sabina Andrén, Project Manager, Sustainable Cities, WWF Sweden Subhro Sen, Senior Programme O WWF India cer, RAMBOLL Lars Ostenfeld Riemann, Group Director, Buildings Søren Hansen, Project Director, Urban Development and Transportation Lisbet Poll Hansen, Senior Project Manager, Sustainability and Environment Anders Dyrelund, Senior Market Manager, Energy and Climate Hanne Tine Ring Hansen, Chief Consultant, Buildings and Sustainable Building Design Consultancy SUSTAINABLE APPAREL COALITION Ryan Young, Index Manager
FOUNDATION FOR ENVIRONMENTAL EDUCATION Sarah Pickering, Program and Communications Director
INDEPENDENT EXPERTS Graham Vickery, Ph.D., Information Economics, former Head of the Information Economy Group, OECD Brian Edwards, Emeritus Professor of Architecture (ECA – Edinburgh University)
AARHUS UNIVERSITY Martin Brynskov, Associate Professor, Center for Digital Urban Living PEGASUS CAPITAL ADVISORS Jennifer Hickman, Operating Partner
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The 4 Key Pillars of Sustainia
We hope you have been inspired and gained insight into the Sustainia100 solutions as well as the exciting trends and developments represented within our 10 sectors. We believe these readily available solutions are showcase examples of how we can make our societies more sustainable today.
Sustainia serves the community, industry leaders, and policy-makers by providing insight, involvement, innovation, and inﬂuence as a platform for a sustainable future.
INSIGHT
→ NEW KNOWLEDGE AND TRENDS
INFLUENCE
→ SETTING THE INTERNATIONAL AGENDA
INVOLVEMENT
→ CO-CREATION OF THE FUTURE FOR INDUSTRY AND POLICY
INNOVATION
→ NEW BUSINESS MODELS AND TECHNOLOGICAL SOLUTIONS
162
INSIGHT
→ NEW KNOWLEDGE AND TRENDS
Sustainia’s research actively develops new knowledge and uncovers emerging trends in the marketplace. These insights deliver inspiration and the beneﬁts of sustainability with concrete reference points.
INNOVATION
→ BUSINESS MODELS AND TECHNOLOGICAL SOLUTIONS
In collaboration with our network, partners, and social outreach programs, Sustainia has been able to proactively pursue unique and innovative sustainable solutions. These solutions provide tangible, practical examples of sustainability outperforming previously perceived expectations. These solutions stress the beneﬁts that come with overcoming barriers and taking the next step.
INVOLVEMENT
→ CO-CREATION AND DEVELOPMENT
Sustainia brings together key stakeholders to cocreate and develop action steps to help drive a transformational agenda within their respective industries and across multiple sectors. Sustainia’s approach to our 10 sectors enables stakeholders to be speciﬁcally involved in one or more of the sectors in respect to their business activities. Cross-sector stakeholder involvement provides realtime marketplace development intelligence which ensures that our insight and trends are on the cutting edge. These stakeholders can then learn from each other, as well as implement actual projects shaping sustainability within their respective value chains.
INFLUENCE
→ SETTING THE INTERNATIONAL AGENDA, THE FUTURE OF INDUSTRY AND POLICY
Through market insight, stakeholder involvement, and sustainable innovations, Sustainia develops a platform capable of inﬂuencing and shaping the global agenda. The platform builds momentum decision-makers can leverage, driving change and the future of industry and policy. Our most important stakeholder is society as a whole, showing how a movement of the few can inspire the masses.
Our Partners and How You Might Get Involved
Sustainia is always looking to work with companies and organizations dedicated to move their industries, cities and communities forward. We welcome new ideas and partners. Please do get in touch with our management to learn more.
Our Founding Partners help set the overall direction for our work The Founding Partners are forward thinking companies looking to drive the global adoption of readily available sustainable solutions. Innovators in their own regard, they whole heartedly believe in Sustainia’s vision and mission and have put their full support behind our initiative. Serving as the Steering Committee of Sustainia they are involved in our strategic developments. Our Strategic Partners are like-minded organizations and institutions The Strategic Partners share a common mission and ambitious goals of Sustainia where we provide each other mutual beneﬁt of our individual global platforms and knowledge resource base. As Strategic Partners we seek to collaborate and enhance each other’s platforms so that we may together reach our goals and objectives. Our Sector Partners truly inﬂuence their industry and set a new sustainable agenda Sustainia is actively expanding our in-depth sector tracks and is bringing in key Sector Partners to play a crucial role within their industries in an e ort to accelerate change and drive adoption. These partners are on the forefront of sustainable practice or looking for innovation and inspiration across their value-chain operations to improve their market position. Our Knowledge Partners provide resources and intelligence to all of our activities The Knowledge Partners consist of organizations that help provide Sustainia with ideas, market solutions and R&D to enhance our insight to new trends and marketplace developments. Each partner brings di erent values to the Sustainia platform having unique perspectives into di erent sectors.
163
Explore more from Sustainia
Sustainia has a number of activities, events and publications that bring together the bigger picture for our key stakeholders. We start from our overall vision of a sustainable society, zoom in on a city focus, complete a full sector analysis, and then identify and evaluate market solutions as shown in this publication.
THE BOOK “GUIDE TO SUSTAINIA”
→ THE FULL VISION AND INTEGRATED STORYTELLING
Guide to Sustainia describes the overall vision and model of Sustainia and demonstrates a new way of communicating about sustainability. By using clear and simple language along with easily read illustrations, it draws a tangible picture of what the sustainable society could look like ten years from now based on solutions available today.
SUSTAINIA CITY GUIDES
→ EXPLORING THE SUSTAINABLE CITIES AND REGIONS OF TOMORROW
Sustainia City Guides zooms in on real existing cities to showcase how life in sustainable cities will be better. Sustainia City Guides provide insight into new ways of urban planning, understanding of what drives innovation towards sustainability in the built environment, and tools for communicating visions to city stakeholders.
164
SUSTAINIA SECTOR GUIDES
→ STIMULATING THE MARKET SECTORS FOR SUSTAINABLE SOLUTIONS
The Sector Guides aim to stimulate the marketplace for each of our 10 sectors. In 2012 we launched the Buildings Sector Guide and in 2013 we are launching both the Fashion and Health Sectors. Each sector takes a unique approach and builds around key stakeholders to ascertain real-time challenges within. The Building Sector focused on the socio-economic beneﬁts of retroﬁtting and building sustainably, gathering the arguments for a big push towards sustainability. This included healthy indoor climate, productivity and quality of life as well as energy and resource e ciency. The Health Sector will focus on lifestyle and the world we live in whereas the Fashion Sector focuses on cocreating a sustainable value chain for the fashion industry.
SUSTAINIA100
→ 100 SUSTAINABLE SOLUTIONS DELIVERED EVERY YEAR
Sustainia is working continuously to identify, and analyze solutions for this annual catalogue of trends and developments across our ten sectors. It is part of our ongoing e ort to stress the beneﬁts of sustainability, demonstrate the possibilities and inspire communities, businesses and policy makers. The Sustainia100 also acts as a list of nominees for the Sustainia Award.
SUSTAINIA ACTION FORUM
→ KEY DECISION MAKERS COMMITTING TO CONCRETE ACTIONS
Our annual Action Forum brings together key stakeholders from top level executives, policy makers, through to inspiring thought leaders. This provides an open platform where they may engage, learn from, and collaborate on implementing sustainable solutions within their respective activities. As a result, we see real decisions being made by those who can implement change on various levels and scale.
SUSTAINIA STRATEGY AND ADVICE
→ TAILOR MADE, SOLUTION ORIENTED SUSTAINABILITY STRATEGIES
We believe in innovating sustainability to increase value creation. Having worked with some of the world’s leading companies when it comes to uniting sustainability and proﬁtability, and with an experienced and highly-creative sta , Sustainia is able to o er advisory and tailor made insights to support the sustainability strategies and communication e orts of our partners and our network.
165
Index
Company/Organization 3xN Architects Absolicon Solar Collector Adaptrum Airtel Africa Algreen Arkitekter amee UK Applied Separations Aravind Eye Care System Association “La Voûte Nubienne” Aus Design Basica Beximco Beyond Meat Bidgely BigBelly Solar Bill & Melinda Gates Foundation Bluerise BV The Boeing Company Borås Energi och Miljö Bupa Buzzcar BYD Company Limited Byoearth Caltech Capital Cooling Centre for Infectious Disease Research in Zambia (CIDRZ) ClimateWell Copenhagen, city of Cree CTS-EMBARQ Mexico Curaçao Airport Holding Cuycha Innovation Dalkia Digital Lumens Dinex Group Duke Center for Sustainability & Commerce, Duke University Elstat Energeno Ennesys Estonian Academy of Arts Etihad Airways European GreenWood Company F Cubed Fenugreen Fjellstrand FLOOW2 Futerra The George Institute for Global Health Gleaning Network UK Green Solution House Greenway Grameen Infra Grundfos BioBooster Guillot Arquitectos Hangzhou Public Transport Corporation Heliospectra Henning Larsen Architects Huawei Technologies Hyundai Motor Company iFixit in.gredients Indigo International Synergies King’s Cross Central Limited Partnership KiWi Power Klimakvarter Kvaliteta Systems and Solutions Solution Demonstrating Sustainable Buildings Solar Generation of Heat, Steam, and Electricity Connecting Kenya’s Unconnected Mobile-Based Farming Information City Design with Daylight Environmental Scoring of Companies Textile Dyeing without Water or Waste Innovating Eye Surgery Kick-Starting Markets for A ordable Housing Sharing Design Globally for Upcycling Locally Optimal Light, Natural Air Sharing Design Globally for Upcycling Locally Replacing Animal Protein in Diets Using Big Data for Energy Savings Intelligent Waste and Recycling Collection Self-Cleaning, Solar-Powered Toilet Using the Ocean to Power Tropical Islands Integrated Bioenergy Production for Aviation Thermal Storage for Smart and Green Heating Empowering Healthier Food Choices Peer-to-Peer Carsharing Electric City Bus with 250-km Range Red Worms Transform Waste into Fertilizer Self-Cleaning, Solar-Powered Toilet River-Assisted District Cooling Cancer Prevention and Telemedicine Treatment Solar Air-Conditioning with Integrated Energy Storage Climate Resilient Neighborhood Wood-Hybrid Building System up to 30 Stories Inner-City Bus Rapid Transit Using the Ocean to Power Tropical Islands Capturing CO2 to Create Beneﬁciary Byproducts Thermal Storage for Smart and Green Heating Making Every Light Intelligent Slashing Diesel Engine Particle Emissions Linking Sustainability to Commerce Intelligent Thermostats for Beverage Cooling Power-Saving Electricity Monitor Algea Clean Energy and Wastewater Treatment Sharing Design Globally for Upcycling Locally Integrated Bioenergy Production for Aviation “Energy Forests” in Former Coal Mines Solar Water Puriﬁcation and Distillation Keeping Food Fresh from Farm to Fork Battery-Driven Car Ferry Online B2B Sharing Marketplace Clothes Swapping Parties Empowering Healthier Food Choices Redistributing Cosmetic Food Waste Demonstrating Sustainable Buildings High-E ciency Cook Stove Decentralized Wastewater Treatment Optimal Light, Natural Air Urban Bike-Sharing Lighting System “Listens” to Plants City Design with Daylight Green Outdoor Site for Wireless Networking Hydrogen-Powered Fuel-Cell Car Fixing the World One Device at a Time Package-Free Grocery Store Connecting Kenya’s Unconnected Industrial Symbiosis Web Platform Retroﬁtting an Inner-City District Intelligent Reduction of Peak Power Consumption Climate Resilient Neighborhood Solar-Powered PCs for Education Page 98 104 76 79 138 82 56 128 92 52 29 52 42 80 151 121 111 148 107 125 66 69 44 121 141 122 24 132 28 140 111 157 107 113 124 97 39 101 20 52 148 114 118 37 70 81 48 125 45 98 127 154 29 68 38 138 84 67 93 34 76 86 142 106 132 87
166
Index
Company/Organization LanzaTech Loomstate Lucid Energy Lumoi Jewellery The Masdar Insititute of Science and Technology Mazuma Mobile MediAngels Metrobus Mexico City’s Government Microsoft Montería, city of MyShelter Foundation Natural Balance NeighborGoods Nest Netcycler Neutral.com Nexthamburg NICE Fashion NICE International BV Nichicon Nissan Norled Novartis O2E Technologies Okehampton College OriginOil OttoClave Parans Solar Lighting Philips Piece x Piece PitchAfrica Proactiva Medio Ambiente Project Learning Tree Qualcomm Realdania Repair Café Foundation ReUse The Royal Danish Academy of Fine Arts, School of Architecture Rubies in the Rubble Safran San Francisco, city of The Savory Institute Seawater Greenhouse SEICA SFpark SideCar Skidmore, Owings & Merrill LLP SkySails Solelia Greentech Study NY TaKaDu TerraCycle Therefore Thermo King Thinlabs Three Wheels United Timberland Tvilight United Archive UOP-Honeywell VELUX Veolia Environment WaterStep Wongpanit Xyris Software Solution Capturing Carbon for Reuse as Fuel Reversible, Versatile and Sustainable Fashion Generating Energy from Water in Pipelines Upcycling Jewellery Integrated Bioenergy Production for Aviation Cash for your Mobile Phone Online Hospital Treatment Inner-City Bus Rapid Transit Inner-City Bus Rapid Transit Connecting Kenya’s Unconnected Low-Carbon Growth in an Emerging City Bottling the Power of the Sun Cheaper Meals with Heat-Retention Cookers Peer-to-Peer Borrowing and Lending A Learning Thermostat Extending Life of Goods through Trade Rings Sustainable Clothing made Proﬁtable Crowdsourcing the Future City Sharing Design Globally for Upcycling Locally Solar-Powered IT-Centers EVs as an Electric Power Supply EVs as an Electric Power Supply Battery-Driven Car Ferry Mobile Management of Life-Saving Medicine Waste to Energy without Combustion Tying Energy Savings to Learning Opportunities Algea Clean Energy and Wastewater Treatment Audio-Instructed Infection Prevention Bringing Sunlight Into Every Room Community Light Centers New Fashion from Fabric Discards Rainwater-Harvesting Schools Low-Carbon Growth in an Emerging City Environmental Experiences for Children Wireless EV Charging City Design with Daylight Repair Broken Items at the Local Café Sharing Design Globally for Upcycling Locally City Design with Daylight Making Chutney out of Waste Food Integrated Bioenergy Production for Aviation Dynamic Parking Pricing Restoring Desert Land Using Livestock Seawater Desert Greenhouses Optimal Light, Natural Air Dynamic Parking Pricing Real-time Ridesharing App Wind Energy-Generating Skyscraper Kite-Powered Ships Solar-Powered EV Charging Stations Reinventing the Fashion Calendar Software for Reducing Water Loss Waste Education and Collection Generating Light from the Force of Gravity Zero Emissions Transport Refrigeration System Solar-Powered PCs for Education Empowering Auto-Rickshaw Drivers Design for Disassembly Intelligent Streetlights Vintage Clothing Library Integrated Bioenergy Production for Aviation Demonstrating Sustainable Buildings Thermal Storage for Smart and Green Heating Chlorine Generator Kills Waterborne Pathogens Cash for Recycling Empowering Healthier Food Choices Page 110 53 25 58 148 156 129 140 140 76 139 26 40 135 22 152 54 100 52 83 112 112 70 120 115 95 20 126 23 90 59 31 139 94 65 138 153 52 138 41 148 134 150 36 29 134 137 30 64 62 57 78 149 108 72 87 71 50 136 51 148 99 107 146 96 125
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SUSTAINIA
BUILDING THE WORLD OF TOMORROW
Founding partners
Strategic partners
Knowledge partners
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Sustainia100 is a testament to the power of innovation. It is Sustainiaâ&#x20AC;&#x2122;s annual guide to 100 innovative solutions from around the world that presents tangible projects, initiatives, and technologies at the forefront of sustainable transformation. All solutions are readily available and introduce state-ofthe-art practices with a positive impact on communities and industries worldwide. With the Sustainia100, Sustainia gives investors, business leaders, politicians, and consumers in-depth insights into the most promising projects and solutions across our 10 sectors. The solutions in the Sustainia100 are e and fascinating. We hope you will be inspired! cient, innovative,
SUSTAINIA
BUILDING THE WORLD OF TOMORROW
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